Nibiru Tiger's Blood by Eclipse

POSSIBLY EFFECTIVE

• Alzheimer disease. Oral alpha-GPC, taken alone or in combination with donepezil, may be beneficial for improving cognitive function in patients with Alzheimer disease. Details: A meta-analysis of 3 moderate-sized clinical studies in patients with Alzheimer disease shows that taking alpha-GPC 1200 mg daily for up to 6 months improves cognitive function as measured using the Mini-Mental State Examination (MMSE) when compared with placebo. Additionally, an analysis of 4 different clinical trials in patients with Alzheimer disease shows that taking alpha-GPC 1200 mg with donepezil 10 mg daily for up to 2 years improves cognitive function as measured using the MMSE and Alzheimer's Disease Assessment Scale - cognition subscale (ADAS-Cog) and may decrease behavioral symptoms and improve functional abilities when compared with donepezil alone (111731).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Brain tumor. It is unclear if oral alpha-GPC is beneficial in patients with brain tumors. Details: Observational research in patients being treated for glioblastoma suggests that taking alpha-GPC, around 400 mg 2-3 times daily, for 12 months or longer is associated with a 14-month-increase in overall survival but no improvement in progression-free survival when compared with patients not taking alpha-GPC (111732). The validity of these findings is limited by the retrospective nature of the study.
• Cognitive function. Although there has been interest in using oral alpha-GPC to improve cognitive function in healthy adults, there is insufficient reliable information about the clinical effects of alpha-GPC for this purpose.
• Stroke. It is unclear if intramuscular or oral alpha-GPC is beneficial for preventing stroke or improving post-stroke outcomes. Details: A large, open-label, uncontrolled clinical trial in patients who experienced a stroke or transient ischemic attack within the past 10 days shows that intramuscular administration of alpha-GPC 1200 mg daily for 28 days, followed by 400 mg three times daily by mouth for 6 months, modestly improves cognitive and behavioral function when compared to baseline (12102). The validity of this finding is limited by the lack of a comparator group. While this evidence suggests that alpha-GPC may offer some benefit in patients recovering from stroke, observational research in healthy individuals aged 50 years and older has found that alpha-GPC use is associated with a 43% greater risk of stroke, including a 34% greater risk of ischemic stroke and a 37% greater risk of hemorrhagic stroke, when compared with non-users at 10-years' follow-up. Additionally, alpha-GPC use for 2-6 months, 6-12 months, or greater than 12 months is associated with a greater risk of stroke when compared with alpha-GPC use for less than 2 months, suggesting that the increase in stroke risk may be dependent on the total dose received or duration of exposure (108883).
• Vascular dementia. It is unclear if intramuscular alpha-GPC is beneficial in patients with vascular dementia. Details: A small, open-label study in adults with mild to moderate vascular dementia shows that intramuscular administration of a prescription-only formulation of alpha-GPC (Delecit; not available in the US) 1000 mg daily for 90 days improves cognitive function, behavior, mood, and functionality similarly to cytosine diphosphocholine (CDP) 1 gram daily (12101). It is not clear how these improvements compare with standard care. More evidence is needed to rate alpha-GPC for these uses.

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POSSIBLY EFFECTIVE

• Athletic performance. In some adults, taking beta-alanine appears to improve some, but not all, measures of athletic performance. Beta-alanine appears to work better for exercises that lasts at least 1 minute in duration; however, many other factors likely alter efficacy, such as the type of exercise, the subject's training experience, and the dosing regimen. Details: Many small clinical trials have evaluated the effects of beta-alanine supplementation in untrained individuals, recreational athletes, and professional athletes in a variety of sports and activities, including running, cycling, swimming, basketball, football, soccer, rowing, water polo, wrestling, weight lifting, skiing, and others. However, the results of individual trials are conflicting. Furthermore, studies have included multiple endpoints that have been both lab-based, such as time to exhaustion, strength endurance, time trials, and power output, and field-based, such as performance times (18227,94333,94334,94335,94336,94337,94338,94339,94340,94341)(94342,94343,94345,94346,94347,94348,94349,97956,97958,97960)(97962,97969,97970,97971,97972,101027,101028,101029,101030,104144)(104145,106710,106711,106713,106717,106718,112794). Meta-analyses of clinical trials show that taking beta-alanine 2-6.4 grams orally daily for 3-12 weeks provides minor improvements in exercise capacity and performance when compared with control (18227,94357,106717). In one meta-analysis, exercise capacity improved by an average of approximately 3% when compared with placebo (18227). However, meta-analyses suggest that improvements in exercise performance are less than exercise capacity (18227,94357). The majority of this research has only included males. Preliminary clinical research assessing the effect of beta-alanine on exercise capacity in females has not consistently demonstrated a benefit. However, the validity of these studies is limited by small sample sizes (14611,94338,94339,94345,97957,97967,104144,112791). Preliminary clinical research also suggests that beta-alanine is more effective for short exercises, lasting at least 1 minute. Longer exercises, lasting more than 10 minutes, have not been well studied. In addition, the type of athlete and type of exercise most likely to benefit from beta-alanine supplementation is unclear (18227,94357,106717). Pooled analyses have not identified the most effective dose of beta-alanine; however, preliminary subgroup analyses suggest that prolonged supplementation of at least 3-6 weeks may be needed to gain benefits (94357,106717). There does not seem to be a relationship between the daily beta-alanine dose and exercise-related outcomes, although one analysis suggests outcomes may be related to the total cumulative dose; most studies have used a total daily dose of 2.4-6.4 grams (18227,94357,101026,101027,101028,101029,101030,106712,106717). The majority of studies have evaluated various marketed formulations of beta-alanine (Carnosyn, Natural Alternatives International; Sustained Release Beta-Alanine, Musashi; Balance 100% unflavored pure beta-alanine, Vitaco Health; Intra X cell, Athletics Edge Nutrition) (94333,94335,94336,94337,94339,94342,94346,94347,94348,94349)(101028,101029,101030,104144,106710,106711,106718). Beta-alanine has also been studied in combination with 1 additional ingredient, namely sodium bicarbonate or creatine. Preliminary clinical research in physically active or trained males shows that taking beta-alanine 6-6.4 grams orally daily for 4-6 weeks with sodium bicarbonate 300-500 mg/kg orally daily for 1-7 days does not increase exercise capacity or exercise performance while cycling or sprinting when compared with individual supplementation (97959,97964,97966,101028). In contrast, preliminary clinical research in male athletes participating in martial arts or rowing shows that taking beta-alanine with sodium bicarbonate modestly increases exercise performance when compared with either ingredient taken alone (97962,97963). Other preliminary clinical research in healthy, untrained males shows that taking beta-alanine 1.6 grams daily for 28 days with creatine 5 grams twice daily for 22 days, followed by four times daily for 6 days, modestly increases power output during cycling when compared with placebo or taking either supplement alone (97973). In another very small clinical study in trained military males, taking beta-alanine 6.4 grams daily for 28 days with creatine 0.3 grams/kg daily for the last 7 days improves leg muscle power but not anaerobic power or muscle strength when compared with beta-alanine plus placebo (112793). Beta-alanine has also been studied in combination with multiple other ingredients. Preliminary clinical research shows that taking a specific product containing beta-alanine, creatine monohydrate, arginine, alpha-ketoisocaproate, and leucine (NO-Shotgun) or a different product containing beta-alanine, L-histidine, and carnosine (BETAFOR3MAX, Martinez Nieto S.A.) for 28 or 7 days, respectively, also improves strength and power output when compared with placebo (34451,106714). However, another very small crossover clinical study in healthy males shows that taking 6 mg/kg of a multi-ingredient pre-workout supplement containing beta-alanine, L-tyrosine, L-citrulline maleate, arginine alpha-ketoglutarate, L-taurine, and caffeine 30 minutes prior to weight training does not increase bench press strength endurance when compared with an equivalent amount of anhydrous caffeine (111250). It is unclear if these effects are due to beta-alanine, other ingredients, or the combination.
• Physical performance. Preliminary clinical research shows that taking beta-alanine improves exercise capacity and fatigue, but not strength or exercise performance, in older adults. Details: Clinical research in older adults shows that taking beta-alanine 2.4-3.2 grams daily for 4-12 weeks increases exercise capacity and delays fatigue during exercise when compared with placebo (16442,97955,97965). In addition, preliminary clinical research in older adults shows that taking an oral nutritional supplement fortified with beta-alanine 0.8-1.2 grams twice daily for 12 weeks increases exercise capacity when compared with taking the oral nutritional supplement alone (97961). Taking beta-alanine 2.4 grams daily also minimizes the reduction of executive functioning after cycling in older adults when compared with placebo (97955). However, 2 clinical studies in older adults show that taking beta-alanine (Natural Alternatives International) 2.4-3.2 grams daily for 10-12 weeks with or without an endurance-based resistance-training program does not improve strength, power, fatigue, or performance when compared with the resistance training program alone or placebo (101031,112792).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Age-related cognitive decline. It is unclear if oral beta-alanine is beneficial for cognitive decline in older adults. Details: A small clinical study in older adults shows that taking beta-alanine 1200 mg twice daily for 10 weeks reduces symptoms of depression and might improve cognitive function in subjects with borderline or low cognitive function at baseline when compared with placebo. However, beta-alanine supplementation does not improve cognitive function in older adults with normal cognitive function at baseline and does not benefit mood, anxiety, or executive function when compared with placebo (112792).
• Chronic obstructive pulmonary disease (COPD). It is unclear if oral beta-alanine improves physical function in people with COPD. Details: A small clinical study in adults with COPD shows that taking beta-alanine (SR CarnoSyn, Natural Alternatives International, Inc) 800 mg four times daily for 12 weeks does not improve exercise capacity, muscle function, or physical activity when compared with placebo (112790).
• Cognitive function. Oral beta-alanine has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: A very small clinical study in trained military males shows that taking beta-alanine 6.4 grams daily for 28 days with creatine 0.3 grams/kg daily for the last 7 days modestly improves mathematical processing when compared to baseline, but not when compared with beta-alanine plus placebo. However, improvement from baseline was not found in the group taking beta-alanine plus placebo (112793).
• Exercise-induced muscle breakdown. It is unclear if oral beta-alanine improves muscle recovery after exercise. Details: Preliminary clinical research in untrained adults shows that taking beta-alanine 4.8 grams orally daily for 4 weeks does not improve muscle recovery after resistance exercises when compared with placebo (101026).
• Menopausal symptoms. Although there has been interest in using oral beta-alanine for menopausal symptoms, there is insufficient reliable information about the clinical effects of beta-alanine for this purpose.
• Obesity. It is unclear if oral beta-alanine improves body composition in adults. Details: A meta-analysis of several small clinical studies in active and sedentary adults shows that supplementing with beta-alanine 1.6-6.4 grams daily for 3-10 weeks does not reduce body mass, fat mass, body fat percentage, or free fat mass when compared with various controls. Subgroup analysis of dose, duration, and type of additional training did not change the results (112789).
• Sarcopenia. Although there has been interest in using oral beta-alanine for sarcopenia, there is insufficient reliable information about the clinical effects of beta-alanine for this purpose. More evidence is needed to rate beta-alanine for these uses.

(Read more about BETA-ALANINE)

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Coronary heart disease (CHD). It is unclear if consuming black walnut as part of the diet can reduce the risk for CHD. Details: Epidemiological research has found that people who increase dietary consumption of nuts in general might have a lower risk of CHD and death due to coronary events. However, there is no available evidence showing that eating black walnut, specifically, reduces the risk of CHD (8478,13299). Still, in 2004, the US Food and Drug Administration (FDA) determined that it would allow a qualified health claim stating that consuming 1.5 ounces of walnuts per day, as part of a diet low in saturated fat and cholesterol, may reduce the risk of CHD. The FDA has concluded that this claim is based on supporting, rather than conclusive, evidence (102335).
• Wound healing. Although there is interest in using topical black walnut hull and bark for wound healing, there is insufficient reliable information about the clinical effects of black walnut for this purpose. More evidence is needed to rate the effectiveness of black walnut for these uses.

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EFFECTIVE

• Migraine headache. Oral caffeine in combination with acetaminophen, aspirin, and/or sumatriptan is approved by the US Food and Drug Administration (FDA) for treating migraine headache. Details: Taking caffeine 100-260 mg orally in combination with acetaminophen 500-2000 mg, aspirin 500 mg, and/or sumatriptan 50-100 mg is effective for treating migraine headache (2715,2716,2717,37614,37626,37816,91068). Some evidence shows that caffeine in combination with aspirin and acetaminophen may be more effective than sumatriptan in treating a migraine attack (37666). However, taking caffeine 200 mg plus ergotamine seems to be less effective than sumatriptan or calcium carbasalate plus metoclopramide (37685,38312). Caffeine is an FDA-approved product for use with analgesics for the treatment of migraine.
• Neonatal apnea. Oral or intravenous caffeine citrate is approved by the US Food and Drug Administration (FDA) for the short-term treatment of neonatal apnea in very preterm infants. Details: Using caffeine orally or intravenously improves apnea of prematurity in very preterm infants and reduces the risk of bronchopulmonary dysplasia, invasive mechanical ventilation, and neurodevelopmental impairment (6023,6371,37857,37906,38124,38344,98807,100364). The dosage approved in the FDA labeling is a single loading dose of caffeine citrate 20 mg/kg (10 mg/kg caffeine base), followed by 5 mg/kg of caffeine citrate (2.5 mg/kg caffeine base) every 24 hours for maintenance. Clinical research shows that caffeine citrate dose-dependently reduces the number of apnea episodes by at least 50% over 7-10 days of treatment (6371). Doses above 10 mg/kg daily reduce the risk of apnea, bronchopulmonary dysplasia, and problematic extubation compared with doses below 10 mg/kg/day (98807,100364). Additional clinical research shows that reinitiating caffeine treatment after termination of the original caffeine regimen, and continuing until 40 weeks postmenstrual age, reduces the incidence of intermittent hypoxia in premature infants by 46% when compared to standard care (91073). At 18-21 months of age, a history of neonatal caffeine treatment reduces the risk of long-term complications of apnea of prematurity, such as cerebral palsy or cognitive delay (37722,38340). At 11 years of age, individuals born prematurely and treated with caffeine have improved visuomotor, visuoperceptual, and visuospatial abilities when compared to those who received placebo (97452). Data on the prophylactic use of caffeine in very low birth-weight infants (less than 1500 grams and 32 weeks' gestation) are conflicting. In a meta-analysis of 11 studies, 5 show a reduced risk of apnea of prematurity, oxygen therapy, bronchopulmonary dysplasia, patent ductus arteriosus, and retinopathy of prematurity, and a reduced duration of mechanical ventilation (111491). However, other studies do not show any benefit (38125,111491). A study of infants born at 34-36 weeks' gestation shows that caffeine citrate, 10 or 20 mg/kg orally daily, reduces the number of intermittent hypoxemia episodes per hour by 61% and 67% respectively, when compared with placebo (111493). Caffeine and aminophylline have similar effectiveness for management of apnea, bradycardia, and hypoxemia, but caffeine has a wider range of safe plasma levels and lower rates of tachycardia and feeding intolerance (111492).
• Postoperative headache. Oral or intravenous caffeine is approved by the US Food and Drug Administration (FDA) for preventing headache in postoperative patients who regularly consume caffeinated products. Details: Clinical research shows that using caffeine is effective for preventing postoperative headache in patients who regularly consume caffeinated products. Intravenous caffeine does not seem to be effective in non-regular caffeine consumers. Studied doses have included 200 mg intravenously or oral doses calculated based on average daily consumption (2725,2726). Caffeine is an FDA-approved product for preventing headache in postoperative patients who regularly consume caffeinated products.
• Tension headache. Oral caffeine in combination with analgesics is approved by the US Food and Drug Administration (FDA) for treating tension headache. Details: Taking caffeine orally in combination with analgesics is effective for treating simple tension headache. Taking caffeine 100 mg alone is more effective at reducing tension headache pain when compared with placebo, but less effective than the combination of caffeine and analgesics. Caffeine 130 mg has been used with acetaminophen 1000 mg or with acetaminophen 500 mg and aspirin 500 mg. Caffeine 50 mg has been used with acetylsalicylic acid 250 mg and acetaminophen 200 mg (2718,11832,37668,37773).

LIKELY EFFECTIVE

• Mental alertness. Oral caffeine increases mental alertness. However, it might not improve performance or accuracy to the same extent achieved through adequate sleep. Details: Consumption of caffeinated beverages or caffeine supplements seems to prevent a decline in alertness and cognitive capacity when consumed throughout the day (4221,4224,36439,37727,37757,37759,38070,38075,38158,91093)(91075). Caffeine appears to be especially effective in individuals that are not regular users (91074). Taking caffeine 100-600 mg can improve alertness and speed following prolonged sleep deprivation but usually does not affect mental performance or accuracy (10205,37716,37755,37806,37992,38007,38035,38139,91049,91072,103706). Drinking coffee containing caffeine 100 mg prior to a cognitive performance test improves reaction times in people with recent poor sleep quality, and in those with adequate sleep. However, the increase in vigilance occurring in the sleep-deprived people does not bring their performance up to the level seen with adequate sleep. Also, the number of errors made by sleep-deprived people seems to increase, suggesting that caffeine may have a detrimental effect on inhibitory control (98809). Caffeine also appears to reduce cognitive impairment caused by medications such as chlorpheniramine (91058). Combining caffeine with certain other supplements may improve mental performance. Taking caffeine 80 mg with taurine seems to provide a small improvement in mental performance (9899), although this effect is not observed in sleep deprived subjects (38154). Some clinical research shows that combining caffeine 40-75 mg with glucose 37.5 grams or L-theanine 97-100 mg improves mental performance better than placebo or either substance alone (13732,37762,37903,38116); however, other clinical research shows no additional benefit from combining L-theanine and caffeine (91045).

POSSIBLY EFFECTIVE

• Athletic performance. Oral caffeine taken 30-150 minutes prior to physical activity seems to modestly improve muscle strength and physical endurance, although the magnitude of effect is variable and may be dependent on a number of patient- and activity-specific factors. Caffeine in excess of 800 mg daily can result in levels greater than those allowed by the National Collegiate Athletic Association. Details: Clinical research and meta-analyses of clinical research show that taking caffeine 2-10 mg/kg modestly improves work produced, muscle strength, physical endurance, and athletic performance (10203,11832,37648,37894,38054,38063,95955,100362,100365,100371,103701,103703,108798,111250). Meta-analyses of studies using caffeine 3-9 mg/kg as a single dose prior to endurance time trials reports variability in results. Sports studied included running, rowing, cycling, swimming, and Nordic skiing, and included both recreational and trained athletes. Overall there was a small positive effect on time to exhaustion, endurance performance, and mean power output, and a decrease in the time needed to complete the trials when compared with placebo (98808,111497). Another meta-analysis of small clinical trials shows that the benefit of caffeine on athletic performance seems to increase with increased duration of the activity. This suggests that caffeine can improve physical endurance during athletic activities (100371). In these trials, caffeine is typically provided as a single dose 30-150 minutes prior to testing (98808), although one study suggests that taking caffeine 60 minutes prior to peak activity has the most consistent ergogenic benefits (104577). Most research has investigated the acute effects of a single dose of caffeine. The evidence is mixed as to whether chronic intake of caffeine could induce tolerance and reduce any acute ergogenic benefits. One study shows that the consistent consumption of caffeine 3 mg/kg daily for 28 days eliminates the acute benefits of caffeine in work produced when compared with placebo, suggesting the development of tolerance (95955). However, chronic use of caffeine at a dose of 6 mg/kg for 4 days does not seem to induce tolerance to an acute dose of caffeine 6 mg/kg taken 60 minutes prior to a cycling time trial in males who are moderate to high users of caffeine (104576). Similarly, a small clinical study in trained individuals shows that acute supplementation with oral caffeine 6 mg/kg about 1 hour prior to performance improves strength and endurance when compared with placebo or control, regardless of habitual caffeine consumption (108804). Differences may be due to the type of exercise, the acute dose of caffeine, the length of the chronic intake period, and/or the normal caffeine intake of the athlete. Some clinical research also shows that taking caffeine can decrease subjective feelings of exertion and fatigue during exercise such as fencing and cycling (17618,37656,91026,91058,91062). Although some other clinical studies show that caffeine does not affect perceived exertion, caffeine does seem to improve performance and cause small increases in the amount of physical work done when compared with placebo in various athletes, including cyclists, runners, basketball players, and golfers (37702,37860,37872,38031,38119,38320,91037,91077,97457,97459)(104580,108800,108804). These effects do not seem to be dependent upon the dose of caffeine (97459), although some research shows that the timing of caffeine intake and exercise may alter overall benefit, with a greater effect seen in the morning compared to the evening (97457,104580). Caffeine might improve performance in some athletic activities but not others. Some research shows that caffeine does not improve performance during athletic activities requiring a high amount of exertion over a short period of time. Such activities include sprinting and lifting (11832,37564,37758,37837,37841,37890,38319,95963,97459). However, it is possible that the negative lifting studies were underpowered. Ballistic exercise, such as jumping or throwing, requires rapid increases in velocity, force, and muscle activation. A meta-analysis of 10 studies shows that caffeine in a range of doses (mean: 3 mg/kg) has a significant ergogenic effect on throwing performance and velocity (111488). A meta-analysis of small studies shows that caffeine modestly improves bench press repetitions and maximum strength, but not perceived exertion, when compared with placebo. Caffeine also tends to improve these parameters for leg presses, but the improvement does not reach significance when compared with placebo (103701). A very small study in healthy males shows that taking caffeine alone, 6 mg/kg prior to bench press exercises, has a greater ergogenic benefit than a multi-ingredient supplement containing the same dose of caffeine in combination with L-tyrosine, beta-alanine, L-citrulline maleate, arginine alpha-ketoglutarate, and L-taurine (111250). A meta-analysis of small clinical studies in female team-sport athletes shows that caffeine improves specific team-sport skills but has no effect on perceived exertion or agility tests performed after exertion (108799). Conversely, a small individual clinical study shows that taking caffeine 6.5 mg/kg 60 minutes before strength training decreases perceived exertion while increasing the number of repetitions of both upper and lower limb exercises by 17% to 33% over placebo (104581). Most studies suggest that there is significant inter-individual variability in response to caffeine for improvement of athletic performance (100365). These differences might be due, at least in part, to genotype (100370), although research is conflicting. Caffeine is metabolized by the cytochrome P450 1A2 (CYP1A2) enzyme. One small clinical trial in resistance-trained males shows that taking caffeine 6 mg/kg improves resistance exercise performance in those homozygous for the CYP1A2 rs762551 polymorphism (AA) when compared with those without or heterozygous for that polymorphism (CC or A/C, respectively) (100370). However, another clinical study in trained male athletes shows that taking oral caffeine 4 mg/kg about 30 minutes prior to performance decreases handgrip strength by about 13% in individuals with the CC genotype when compared with placebo, but not in those with the AA or A/C genotypes. No groups experienced an improvement in vertical jump performance (108803). Another small clinical study suggests that CYP1A2 genotype does not affect exercise performance in athletes 60 minutes after taking caffeine 3 mg/kg. In addition, the ADORA2A genotype, which plays a role in caffeine sensitivity, does not seem to affect exercise performance benefits from caffeine (104578). However, these studies are small and further research is needed to clarify how these polymorphisms may impact the athletic performance benefits of caffeine. Limited research has also evaluated the use of a caffeine mouth rinse, with mixed findings. Two very small clinical studies in healthy trained males shows that rinsing the mouth with 25 mL of water containing caffeine 85 or 300 mg for 5-10 seconds does not affect athletic performance or time to exhaustion while cycling when compared with placebo (103709,108801). However, another small study in healthy Taekwondo athletes fasting for Ramadan suggests that using a mouth rinse containing caffeine 6 mg/kg, ten seconds prior to exertion, modestly reduces perceived exertion and modestly improves kick performance when compared with using a placebo rinse (103710). Similarly, another small clinical study in healthy, resistance-trained males shows that rinsing the mouth with 25 mL of a solution containing caffeine 3%, but not 1% or 2%, reduces perceived exertion and increases muscular endurance, but not strength, when compared with placebo. The mouth rinse was used for 5 seconds immediately prior to a strength test or once per minute for 2 minutes during a muscular endurance test (108802).
• Bronchopulmonary dysplasia. Intravenous caffeine may reduce the risk for bronchopulmonary dysplasia in preterm infants. Details: Population research has found that initiating caffeine treatment prior to the third day of life in premature infants is associated with a reduced risk of developing bronchopulmonary dysplasia compared to later initiation of treatment with caffeine. Additionally, a meta-analysis of available clinical research shows that high-dose caffeine (40-80 mg/kg loading dose, 20 mg/kg daily maintenance) lowers the risk of bronchopulmonary dysplasia when compared with standard dosing (20 mg/kg loading dose, followed by 5-10 mg/kg daily maintenance). However, small sample sizes and high heterogeneity limit the validity of these findings (97462,100364).
• Diabetes. Dietary caffeine seems to be beneficial for the prevention of type 2 diabetes; it is unclear if it is beneficial for the prevention of gestational diabetes. Also, it is unclear if oral caffeine is beneficial in patients with type 1 or type 2 diabetes. Details: Total caffeine consumption from beverages such as coffee or tea is associated with a lower risk of developing type 2 diabetes. This effect appears to be dose-dependent (11353,14313,37850,37871,91040,100368). For example, an increase of 200 mg daily caffeine intake seems to be associated with a 14% decrease in the incidence of type 2 diabetes (91055). Additionally, in North American males, consuming caffeine 417 mg daily from coffee or tea is associated with a 20% lower risk of developing type 2 diabetes when compared with those consuming less than 37 mg daily. North American females consuming at least 258 mg of caffeine daily from coffee or tea seem to have a 10% to 30% lower risk of developing type 2 diabetes when compared with those consuming less than 140 mg daily (11353). Japanese adults who consume at least 416 mg of caffeine daily from beverages including coffee or green tea seem to have a 33% lower risk of developing type 2 diabetes compared to those who consume no more than 57 mg daily. The risk reduction appears to be more pronounced in Japanese females when compared with males (14313). It is unclear if caffeine is beneficial in adults with diabetes. A few small studies show that caffeine consumption may further reduce insulin sensitivity in patients with type 2 diabetes, gestational diabetes, or those at risk for developing diabetes (13744,37653,37820). Caffeine consumption has also been evaluated during pregnancy. An observational study has found that self-reported consumption of beverages containing up to 100 mg of caffeine at 16-22 weeks' gestation is associated with a 47% lower risk of developing gestational diabetes when compared with no intake (108814). Research regarding the effects of caffeine in patients with type 1 diabetes shows conflicting results. One study shows that taking caffeine 250 mg twice daily for 2 weeks can reduce the incidence of elevated blood sugar at night in patients with type 1 diabetes (37660). However, another study in patients with type 1 diabetes shows that taking caffeine 200 mg daily for 3 months may increase the ability to perceive hypoglycemic symptoms when compared with placebo, although overall glycemic control does not seem to be affected (6024).
• Memory. Oral caffeine seems to be beneficial for short-term memory recall in college students and extroverted personalities. It is unclear if oral caffeine is beneficial for introverted personalities or other populations. Details: Taking a single dose of caffeine 65-200 mg orally daily seems to improve memory function in some individuals such as college students and people with extroverted personalities. A small study shows that taking caffeine does not improve memory function in individuals with introverted personalities (37845,38071,91080).
• Obesity. Oral caffeine, when taken in combination with ephedrine or as a component of green tea, seems to be beneficial for weight loss, short-term. Details: Taking caffeine orally, in combination with ephedrine or as a component of green tea, seems to help reduce weight, short-term (695,696,1704,8647,16892,37617,37831). Caffeine 192 mg in combination with ephedra 20-90 mg per day for 6 months seems to cause a modest weight reduction (5.3 kg) in people with a body mass index (BMI) between 25-40 kg/m². This combination, along with limiting fat intake to 30% of calories and moderate exercise, also seems to reduce body fat, decrease low-density lipoprotein (LDL) cholesterol, and increase high-density lipoprotein (HDL) cholesterol. However, even in carefully screened and monitored otherwise healthy adults, caffeine/ephedra combinations can cause small changes in blood pressure and heart rate (8647). Preliminary clinical research also shows that taking 1000 mg of a proprietary combination product containing caffeine and multiple other ingredients (Prograde Metabolism) twice daily for 8 weeks in conjunction with dieting reduces body weight, fat mass, waist circumference, and hip circumference by 1.5%, 5%, 1.8%, and 1.3%, respectively, when compared with dieting alone (40802).
• Pain (acute). Oral caffeine, when taken in combination with acetaminophen, propyphenazone, ibuprofen, or other pain-relieving agents, seems to be beneficial for acute pain. Details: Clinical research shows that taking caffeine 50-130 mg in combination with acetaminophen, propyphenazone, ibuprofen, or other pain-relieving agents can reduce acute pain when compared with the effects of pain-relieving agents alone (37587,37904,38036,38303,91038). Adding ≥100 mg caffeine to treatment with acetaminophen or ibuprofen results in 5% to 10% more patients that achieve at least 50% of maximum pain relief for over 4 hours when compared to treatment with acetaminophen or ibuprofen alone (91038).
• Postdural puncture headache. Oral or intravenous caffeine seem to be beneficial for preventing postdural puncture headache. Details: Using caffeine 300 mg orally or 500 mg in 1,000 mL normal saline intravenously seems to help treat and prevent postdural puncture headache (2727,2728). Using a combination of ergotamine and caffeine seems to be less effective than gabapentin for treating this condition (38147). Lower doses of oral caffeine may not be beneficial. Clinical research shows that oral caffeine, 75-125 mg, does not decrease the risk of postdural headache (91022).

POSSIBLY INEFFECTIVE

• Atrial fibrillation. Oral caffeine does not seem to prevent atrial fibrillation after cardiopulmonary bypass. In addition, it might increase the risk of gastrointestinal side effects. Details: In adults undergoing surgery with cardiopulmonary bypass, taking caffeine 400 mg every 8 hours for 6 doses does not seem to reduce the risk of developing atrial fibrillation during the first three post-operative days. This clinical study was stopped prior to the completion of recruitment after an interim analysis showed increased incidence of postoperative nausea and vomiting, and no effect on the incidence of atrial fibrillation (97451).
• Attention deficit-hyperactivity disorder (ADHD). Oral caffeine does not seem to reduce symptoms of ADHD in children. Details: Most research suggests caffeine does not significantly reduce ADHD symptoms in children when used at tolerable doses (10755,10756,10757,10758,10759,10760). The use of caffeine in adolescents and adults with ADHD has not been studied.

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Age-related cognitive decline. It is unclear if oral caffeine prevents cognitive decline with aging. Details: Population research from a small cohort of elderly females shows that caffeine intake of more than 371 mg daily is associated with an attenuation in cognitive decline when compared to less than 30 mg daily. This is equivalent to the difference seen over a 7 year span of age. Caffeinated coffee consumption, but not caffeinated chocolate, tea, or cola, was associated with this attenuation in cognitive decline (91088).
• Alzheimer disease. It is unclear if oral caffeine is beneficial for preventing dementia; the available research is conflicting. Details: Population research from the UK Biobank has found that caffeine intake up to 400 mg daily is associated with a 24% to 34% reduced risk of developing Alzheimer disease when compared with lower intake. Conversely, population research from the Rush Memory and Aging Project in the US has found that caffeine intake of more than 100 mg daily is associated with a 41% increased risk of developing Alzheimer disease when compared with lower intake. However, when those with mild cognitive impairment at baseline or cases diagnosed within 2 years of follow-up are excluded, these findings become insignificant (108810).
• Asthma. Oral caffeine seems to modestly improve airway function for up to 4 hours in patients with mild to moderate asthma. However, it is unclear if oral caffeine has a clinically significant effect on asthma symptoms or quality of life. Details: Taking caffeine 9 mg/kg orally appears to modestly improve airway function for up to 4 hours in people with mild to moderate asthma (37907,37915). However, more research is needed to determine the appropriate dose, whether any benefit is clinically significant, or whether tolerance occurs with chronic dosing.
• Cancer pain. It is unclear if intravenous caffeine is beneficial for cancer pain. Details: Clinical research shows that receiving caffeine 200 mg intravenously once daily for 2 days results in a significant reduction in pain intensity by 0.833 points on the NRS scale when compared with control in patients receiving opioids for pain from advanced cancer (91081).
• Cognitive function. It is unclear if oral caffeine improves cognitive performance in trained athletes. Details: A meta-analysis of small studies in trained adult athletes shows that consumption of a low to moderate amount of caffeine 15-60 minutes prior to exercise and during exercise improves attention performance, but not reaction time or inhibitory control, when compared with placebo (108797). The validity of these findings is limited by unclear reporting.
• Dementia. It is unclear if oral caffeine is beneficial for preventing dementia or improving behavior in patients with dementia. Details: Population research from the Women's Health Initiative has found that caffeine intake of more than 175 mg daily is associated with a 26% reduced risk of developing probable dementia or global cognitive impairment when compared to less than 175 mg daily in postmenopausal adults 65-80 years of age (97458). Population research from the UK Biobank has found that caffeine intake up to 400 mg daily is associated with a 17% to 26% reduced risk for developing all-cause dementia when compared with lower intake. Conversely, population research from the Rush Memory and Aging Project in the US has found that caffeine intake of more than 100 mg daily is associated with a 35% increased risk of developing all-cause dementia when compared with lower intake. However, when those with mild cognitive impairment at baseline or cases diagnosed within 2 years of follow-up are excluded, these findings become insignificant (108810). Caffeine consumption has also been evaluated in patients with dementia. A cross-sectional study in patients with dementia in a care home has found that intake of 'normal' to 'high' amounts of caffeine are associated with reduced agitation and other behavioral symptoms when compared to 'low' intakes of caffeine (104574).
• Depression. It is unclear if oral caffeine is beneficial for depression prevention. Details: Some population research found that caffeine intake is associated with an increased incidence of depressive symptoms in pediatric patients (37839,38162). However, other population research found that caffeinated beverage intake is associated with a decreased incidence of depression in adults (37969,38165,91067,100366).
• Electroconvulsive therapy (ECT) augmentation. Although there has been interest in using intravenous caffeine sodium benzoate to augment electroconvulsive therapy, there is insufficient reliable information about the clinical effects of caffeine for this condition.
• Exercise-induced hypoxemia. It is unclear if oral caffeine is beneficial for hypoxemia associated with exercise. Details: Preliminary clinical research in athletes experiencing exercise-induced hypoxemia shows that taking caffeine 8 mg/kg can improve exercise ventilation, but not ventilatory response or oxygen saturation, when compared with placebo (37750).
• Exercise-induced muscle soreness. It is unclear if oral caffeine is beneficial for reducing muscle soreness during exercise. Details: There is conflicting clinical evidence as to whether caffeine can reduce exercise-induced muscle pain. Some evidence shows that taking caffeine 100 mg or 10 mg/kg can reduce muscle pain during exercise when compared with placebo (37622,38146). However, the effect of lower doses is unclear. Some evidence shows that taking caffeine 5 mg/kg may reduce exercise-induced muscle pain when compared with placebo (37747,91050), while other evidence suggests that taking caffeine 2-5 mg/kg does not affect muscle pain during exercise (38141).
• Gallbladder disease. It is unclear if increased dietary caffeine intake reduces the risk of developing gallstones. Details: Consumption of caffeinated beverages that provide 400 mg or greater of caffeine per day is associated with a significantly reduced risk of developing symptomatic gallstone disease (3345,8032). The effect seems to be dose-dependent; consumption of 800 mg caffeine per day has the greatest reduction in risk (3345).
• Hepatitis C. It is unclear if increased dietary caffeine reduces the risk for hepatitis C-associated severe liver inflammation, although it may reduce the risk of developing advanced fibrosis. Details: A meta-analysis of population research has found that regular consumption of caffeine at doses of at least 123 mg daily is associated with a 48% reduced risk of advanced liver fibrosis when compared to lower caffeine intake in patients with hepatitis C virus (95947). An individual population study also found that higher intake of caffeine from coffee is associated with reduced severity of liver fibrosis in patients with chronic hepatitis C virus. For these patients, the risk of advanced fibrosis is reduced by 14% for each 67 mg of caffeine (37896). However, caffeine intake does not appear to be associated with a reduced risk of moderate to severe liver inflammation in patients with hepatitis C (95947).
• Hypnic headache. It is unclear if oral caffeine reduces the pain associated with this rare condition. Details: Anecdotal evidence suggests that drinking a cup of coffee containing caffeine before bed or upon waking up may help alleviate pain associated with hypnic headaches (38078).
• Hypotension. It is unclear if oral caffeine is beneficial in people with low blood pressure. Details: Preliminary clinical research shows that consuming caffeinated beverages increase blood pressure in elderly people with postprandial hypotension (11834,11835).
• Intermittent claudication. It is unclear if oral caffeine is beneficial for intermittent claudication. Details: Taking a single dose of caffeine 6 mg/kg orally seems to improve walking distance, muscular strength, and endurance in patients with intermittent claudication; however, balance seems to be reduced (38038).
• Liver disease. It is unclear if oral caffeine is beneficial for liver disease prevention. Details: Population research found that there is an inverse association between intake of coffee and the incidence of liver cirrhosis (37576,37608). However, it is unclear if this effect of coffee is attributable to caffeine, since other caffeinated beverages do not show this effect.
• Narcolepsy. It is unclear if oral caffeine is beneficial for narcolepsy. Details: A small clinical study in patients with narcolepsy shows that taking caffeine 200 mg daily in the morning for 1 week does not affect reaction time, but modestly reduces drowsiness, when compared with baseline (103698). The validity of this finding is limited by the lack of a statistical comparison between the treatment and placebo groups.
• Neonatal resuscitation. It is unclear if oral caffeine improves the likelihood for successful extubation in preterm infants. Details: Preliminary clinical research in extremely preterm infants requiring mechanical ventilation within the first 5 days of birth shows that early administration of caffeine, given as a loading dose of caffeine citrate 20 mg/kg followed by a maintenance dose of 5 mg/kg daily until extubation, does not reduce mortality or shorten time to first successful extubation when compared to giving a bolus dose of caffeine citrate 20 mg/kg just prior to extubation (97461).
• Nocturnal enuresis. Reducing caffeine intake might reduce the frequency of nocturnal enuresis episodes in children. Details: Preliminary clinical research in children aged 6-15 years with primary nocturnal enuresis shows that limiting caffeine intake to less than 30 mg daily reduces the mean number of bedwetting episodes from 3.5 to 2.4 per week, when compared with no change in the group with intakes of 80-100 mg daily. The probability of bedwetting in the caffeine restricted group was about 14% lower than that in the control group (111495).
• Nonmelanoma skin cancer. It is unclear if oral caffeine is beneficial for nonmelanoma skin cancer prevention. Details: A review of available population research shows that increased caffeine intake from any source is associated with a 14% reduction in the risk of developing nonmelanoma skin cancer. Consumption of caffeinated coffee, but not decaffeinated coffee, is associated with an 18% reduced risk (97465).
• Parkinson disease. Although consuming caffeinated beverages might reduce the risk of developing Parkinson disease, it is unclear if oral caffeine is beneficial for improving symptoms. Also, oral caffeine does not seem to prevent tardive dyskinesia. Details: It is unclear whether caffeine improves some symptoms of Parkinson disease, as results from clinical research are conflicting (91069,95951,95954,103705). One clinical study in Parkinson disease patients with extreme daytime somnolence shows that taking caffeine 100 mg twice daily for 3 weeks and then 200 mg twice daily for 3 weeks results in modest improvements in rigidity and bradykinesia, but inconsistent improvements in drowsiness, when compared with placebo (91069). Other clinical research shows that caffeine 200 mg twice daily does not lead to improvements in motor severity, cognition, or somnolence after 6, 12, or 18 months when compared with placebo (95954). Furthermore, a large retrospective study has found that caffeine consumption of more than 300 mg daily for 18 months in conjunction with dopaminergic therapy does not slow the rate of Parkinson disease progression. This research also shows that a reported consumption of caffeine greater than 300 mg, in conjunction with creatine 10 grams daily for 18 months, may accelerate the rate of Parkinson disease progression (95951). The retrospective nature of this study limits the validity of these findings. Caffeine does not appear to be helpful for reducing the risk of tardive dyskinesia. A retrospective analysis has found no definitive difference in onset of tardive dyskinesia in Parkinson patients consuming more than 204 mg caffeine daily when compared with those consuming less than 68 mg daily (91090). Despite these mainly negative findings, large-scale epidemiological studies have found that people who consume caffeinated beverages, such as coffee, tea, and cola, have a decreased risk of Parkinson disease (37931,91060,91071,103705). Males consuming 3-4 cups (28 oz) of caffeinated coffee per day, or 421-2716 mg total caffeine, seem to have the lowest risk of developing this condition. However, a lower risk is also associated with consumption of as little as 124-208 mg of caffeine (6022). In females, more moderate caffeinated coffee consumption, such as 1-3 cups per day, seems to be best (1238). Caffeine does not appear to provide additional protection from Parkinson disease in cigarette smokers (9236,91060).
• Postoperative ileus. It is unclear if oral caffeine is beneficial for improving bowel recovery following colorectal resection. Details: A small clinical study in adults undergoing elective laparoscopic colon or rectal resection with primary anastomosis shows that caffeine citrate 100 mg three times daily, starting on the morning of postoperative day 1, reduces the time to self-reported first bowel movement by about 18 hours when compared with placebo. There was no difference between groups in time to self-reported first flatus (108808). Another small study in adults undergoing elective laparoscopic colectomy shows that taking caffeine 100 mg or 200 mg three times daily does not reduce the mean time to first bowel movement, colonic transit time, or length of hospital stay when compared with placebo (111484).
• Postoperative pain. It is unclear if intravenous caffeine is beneficial for reducing opioid consumption in adults undergoing surgery. Details: A small clinical study in adults undergoing laparoscopic colorectal and gastrointestinal surgery shows that intravenous caffeine citrate 200 mg at the initiation of surgical closure has no effect on cumulative opioid consumption through postoperative day 3 when compared with placebo. In fact, post-hoc analysis with adjustment for age, sex, comorbidities, history of anxiety or depression, and open surgical conversion suggests an increase in opioid consumption with administration of caffeine when compared with placebo (108809).
• Pre-eclampsia. It is unclear if oral caffeine intake affects the risk of gestational hypertension or pre-eclampsia. Details: a meta-analysis of 10 observational studies including about 115,000 pregnant people did not find an association between the level of caffeine intake during pregnancy and the risk of developing gestational hypertension or pre-eclampsia (111485).
• Stroke. It is unclear if oral caffeine is beneficial for stroke prevention. Details: Population research has found that increased intake of either caffeinated or decaffeinated coffee is associated with a decreased risk of stroke in females (37804). However, it is not clear if the effect of coffee is attributable to the caffeine component.
• Tinnitus. It is unclear if oral caffeine is beneficial in patients with chronic tinnitus. Details: A small clinical study in adults with chronic tinnitus shows that taking a single dose of caffeine 300 mg improves mood and quality of life at 1 hour when compared with baseline. (108805). The lack of statistical comparison to the placebo group limits the validity of these findings. More evidence is needed to rate the effectiveness of caffeine for these uses.

(Read more about CAFFEINE)

POSSIBLY INEFFECTIVE

• Athletic performance. Taking oral choline before exercise does not improve athletic performance. Details: Clinical research in trained athletes shows that taking oral choline 2.43 grams as a single dose does not delay fatigue during endurance sports when compared with placebo (5164). Other clinical research in untrained adults shows that taking oral choline 8.425 grams or 50 mg/kg once prior to participating in exhaustive, load-carrying exercise does not improve dexterity, upper or lower body strength, grip strength, or run time-to-exhaustion following exercise when compared with placebo (42229,42237).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Age-related cognitive decline. It is unclear if oral choline is beneficial in patients with age-related cognitive decline. Details: Small clinical studies in adults with memory loss shows that taking choline 2 grams four times daily orally for 21 days does not improve memory when compared with placebo (5170). Observational research in adults over 60 years of age has found that intake of choline 187-399.5 mg daily is associated with a 33% to 42% reduced odds of low cognitive function when compared with intake of less than 187 mg daily. Intake of more than 399.5 mg daily was not associated with low cognitive function when compared with less than 187 mg daily (109100).
• Allergic rhinitis (hay fever). It is unclear if oral choline is beneficial in patients with allergic rhinitis. Details: Preliminary clinical research shows that taking oral choline, as tricholine citrate, 500 mg three times daily for 8 weeks is less effective than intranasal budesonide 200 mcg twice daily for reducing symptoms of allergic rhinitis (42252).
• Alzheimer disease. Although there has been interest in using oral choline for Alzheimer disease, there is insufficient reliable information about the clinical effects of choline for this purpose.
• Asthma. Small clinical studies suggest that oral choline may modestly improve symptoms in patients with asthma. Details: Preliminary clinical research shows that taking choline 500-1000 mg orally three times daily for 3-4 months decreases the severity of symptoms, the number of symptomatic days, and the need to use bronchodilators in patients with asthma when compared with placebo (5165,5166). Preliminary data also shows that choline 3 grams daily might be more effective than 1.5 grams daily (5165).
• Autism spectrum disorder. Oral choline has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: Clinical research shows that taking a combination of donepezil 2.5-5 mg daily and choline bitartrate 350 mg daily for 12 weeks improves receptive language skills, but no other outcomes, for up to 6 months after treatment when compared with placebo in children aged 5-10 years with autism spectrum disorder. Also, adolescents aged 11-16 years experienced no benefits, and some experienced an increase in behavioral symptoms, such as irritability (103571). It is unclear if this effect is due to choline, donepezil, or the combination.
• Breast Cancer. It is unclear if dietary intake of choline reduces the risk of breast cancer. Details: A meta-analysis of 6 low to moderate-quality observational studies suggests that neither high nor low dietary intake of choline is associated with breast cancer risk. This finding is largely influenced by inclusion of the European Prospective Investigation into Cancer and nutrition (EPIC) cohort study, which analyzed data from over 300,000 subjects. However, subanalysis of 3 case-control studies suggests that high dietary intake of choline may be associated with a decreased risk of breast cancer when compared with low choline intake (111416). The interpretation of these findings is limited by the heterogeneity of the included studies, self-reported data, and a small number of studies.
• Bronchitis. Although there has been interest in using oral and inhaled choline for bronchitis, there is insufficient reliable information about the clinical effects of choline for this purpose.
• Cancer. It is unclear if dietary choline intake reduces the risk for cancer. Details: A meta-analysis of 11 low-quality population studies has found that high dietary intake of choline is associated with an 18% lower risk of cancer when compared with low choline intake. High dietary intake of both choline and betaine was associated with a 40% lower risk of cancer (97390).
• Cardiovascular disease (CVD). It is unclear if dietary choline intake reduces the risk of CVD or improves outcomes in patients with CVD. Details: A meta-analysis of population research has found that high intake of dietary choline is not associated with a lower risk of coronary artery disease, stroke, or mortality when compared with a diet low in choline (97388). A more recent population study has found that energy-adjusted total choline intake is not associated with the incidence of CVD over ten years. However, the highest intake of free choline is associated with a 34% reduced risk of CVD when compared with the lowest intake (109104).
• Cerebellar ataxia. It is unclear if oral choline is beneficial in patients with cerebellar ataxia. Details: Despite some anecdotal reports suggesting that taking choline improves motor function, preliminary clinical research shows that taking choline 4-5 grams orally daily for 4 days to 6 weeks does not reduce cerebellar ataxia (5161,5173,23679).
• Cognitive function. It is unclear if oral choline is beneficial for improving cognitive function in healthy adults. Details: Preliminary clinical research shows that taking a single dose of choline 50 mg/kg orally prior to participating in an exhaustive, load-carrying task does not improve reaction time, reasoning, memory, or serial addition and subtraction ability following the task when compared with placebo (42237). Also, preliminary clinical research in patients requiring long-term total parenteral nutrition (TPN) shows that adding choline chloride 2 grams daily to TPN for 24 weeks might improve delayed visual memory, but does not improve other measures of cognitive performance, when compared with TPN alone (42232).
• Cirrhosis. Although there has been interest in using oral choline for cirrhosis, there is insufficient reliable information about the clinical effects of choline for this purpose.
• Complex partial seizures. Although there has been interest in using oral choline for complex partial seizures, there is insufficient reliable information about the clinical effects of choline for this purpose.
• Dementia. Although there has been interest in using oral choline for dementia, there is insufficient reliable information about the clinical effects of choline for this purpose.
• Depression. It is unclear if oral choline is beneficial for the treatment or prevention of depression. Details: Observational research has found that dietary choline intake of at least 198 mg daily is associated with a 32% to 43% decreased risk of depressive symptoms when compared with intakes of less than 198 mg daily (109106). It is unclear if choline supplementation is beneficial for depression.
• Diabetes. It is unclear if oral choline is beneficial for the treatment or prevention of type 2 diabetes; the available research is conflicting. Details: Preliminary clinical research shows that taking oral choline bitartrate 1000 mg daily for 2 months does not affect coagulation parameters or levels of triglycerides, low-density lipoprotein (LDL) cholesterol, or high-density lipoprotein (HDL) cholesterol in patients with type 2 diabetes (103569). Choline has also been evaluated for the prevention of type 2 diabetes. In Finnish males, observational research has found that dietary intake of total choline at levels of more than 482 mg daily, especially as phosphatidylcholine, is associated with a 25% lower risk of developing type 2 diabetes over the following 19.3 years when compared with intakes of less than 382 mg daily (103567). However, in males and females in the US, additional observational research has found no association between dietary choline and risk of type 2 diabetes over a mean of 9 years (103570). In addition, a sub-analysis found that the highest intakes of choline (a median of 487 mg daily) were associated with a 54% higher risk of type 2 diabetes among females, but not males, when compared with the lowest intakes (a median of 175 mg daily) (103570). Population research in patients with diabetes has found that an intake of dietary choline in amounts of at least 279 mg daily is associated with a 2.1-fold increased odds of diabetic retinopathy in females, but not males, when compared with an intake less than 206 mg daily (109102). It is unclear if choline itself is responsible for the increased odds of diabetic retinopathy in this population.
• Fetal alcohol spectrum disorders (FASD). It is unclear if oral choline improves cognition in children with fetal alcohol spectrum disorders (FASD). Details: Clinical research in children aged 2.5-5 years with FASD shows that taking oral choline bitartrate, providing choline 500 mg, daily for 9 months does not improve global cognitive development or hippocampal-dependent memory when compared with placebo. However, a subgroup analysis of only children aged 2.5-4 years suggests that choline may improve hippocampal-dependent memory (92112). Follow-up of this study at 7 years shows that choline improves motor speed and suggests a trend towards improved color naming, which are components of executive functioning testing, when compared with placebo (111745). The validity of these findings is limited by the high rate of patient discontinuation which limits statistical power. A small clinical trial in children 5-10 years old with FASD shows that taking oral glycerophosphocholine, providing choline 625 mg, daily for 6 weeks does not improve cognitive function, executive function, attention, or hyperactivity when compared with placebo (97389).
• Hepatitis. Although there has been interest in using oral choline for hepatitis, there is insufficient reliable information about the clinical effects of choline for this purpose.
• Huntington disease. Although there has been interest in using oral choline for Huntington disease, there is insufficient reliable information about the clinical effects of choline for this purpose.
• Hypertension. It is unclear if oral choline is beneficial for the prevention or treatment of hypertension. Details: Population research has found that every 100-mg increase in daily dietary choline intake is associated with a 15% decreased risk of developing hypertension over the next 4.6 to 9.1 years (109098). However, it is unclear if any benefits are specifically related to dietary choline or whether choline supplementation is beneficial.
• Infant development. It is unclear if oral choline intake during pregnancy is beneficial for infant development; the available research is conflicting. Details: Two observational studies have found that higher intake of choline during the second and third trimesters of pregnancy is associated with improvement in offspring cognitive development and visual memory at the age of 18 months and 7 years, respectively, when compared with lower choline intake (94654,94657). One of these studies found that each 1 mcmol/L increase in maternal blood levels of choline at 16 weeks' gestation was associated with a 2.23-point increase in cognitive skill score based on the Bayley Scales of Infant Development (BSID-III) at 18 months of age (94657). Also, some observational research has found that higher plasma levels of choline during pregnancy are associated with higher processing speed and decreased social withdrawal at 4 years of age in the offspring (109101). In contrast, 3 observational studies have found that higher intake of choline during pregnancy, as well as higher maternal and cord blood levels of choline, are not associated with improved offspring intelligence at 5 years of age or cognitive performance at 3 or 7 years of age (94654,94655,94656). However, many of these observational studies, including those with positive findings, included populations with a mean intake of choline that was below the recommended adequate intake of 450 mg daily (94654,94656). It's possible that higher intake of choline is needed to observe a benefit; however, research on the effects of choline supplementation is limited. One small clinical trial shows that taking choline 930 mg daily during the third trimester modestly improves sustained attention in the child at 7 years of age when compared with taking 480 mg daily (109105).
• Metabolic syndrome. It is unclear if oral choline is beneficial in patients with metabolic syndrome. Details: Preliminary clinical research in adults with metabolic syndrome shows that taking oral choline 400 mg daily for 4 weeks does not decrease body weight, blood pressure, plasma glucose levels, or low-density lipoprotein (LDL) cholesterol levels, or increase high-density lipoprotein (HDL) cholesterol levels, when compared with baseline (105731).
• Neural tube birth defects. It is unclear if oral choline intake is beneficial for preventing neural tube defects. Details: Population research has found that females who have a high dietary choline intake around the time of conception have a lower risk of having offspring with a neural tube defect when compared to those with lower intake (13134).
• Nonalcoholic fatty liver disease (NAFLD). It is unclear if oral choline is beneficial in patients with nonalcoholic fatty liver disease (NAFLD). Details: A cross-sectional analysis of results from observational and clinical research shows that low dietary intake of choline is associated with increased fibrosis in postmenopausal adults with NAFLD, but not in children, males, or premenopausal adults with NAFLD. Dietary choline intake was not associated with steatosis severity in any patient subgroup (92109).
• Schizophrenia. Although there has been interest in using oral choline for schizophrenia, there is insufficient reliable information about the clinical effects of choline for this purpose.
• Tourette syndrome. Although there has been interest in using oral choline for Tourette syndrome, there is insufficient reliable information about the clinical effects of choline for this purpose.
• TPN-associated hepatic steatosis. It is unclear if intravenous choline is beneficial in patients with TPN-associated hepatic steatosis. Details: In patients receiving long-term total parenteral nutrition (TPN), plasma levels of choline can decrease. Small, low-quality clinical studies show that administering intravenous choline 1-4 grams daily for 24 weeks improves some markers of TPN-associated hepatic steatosis when compared with baseline or placebo (5174,42235). More evidence is needed to rate choline for these uses.

(Read more about CHOLINE)

POSSIBLY EFFECTIVE

• Age-related cognitive decline. Clinical research in elderly patients shows that taking oral or intravenous citicoline daily improves some memory scores, short-term. Details: Several small clinical studies in people 50-85 years of age with age-related cognitive decline shows that taking citicoline 500-2000 mg daily, either orally or by intravenous infusion, for up to 12 weeks moderately improves memory scores when compared with placebo (12130,12131,43284,109016). Citicoline consistently improves short-term recall and verbal memory, but the effects on other domains are less clear (12130,12131,43284). In one clinical study, a specific citicoline product (Cognizin, Kyowa Hakko) 500 mg daily for 12 weeks was used (109016).
• Glaucoma. Clinical research shows that oral, intramuscular, or ophthalmic citicoline may improve vision or slow the rate of vision loss in patients with glaucoma. However, these different routes of administration have not been directly compared. Details: Preliminary clinical research in adults with open-angle glaucoma shows that taking citicoline 1600 mg orally daily for 60 days improves visual evoked potentials, but not intraocular pressure (IOP), when compared with baseline (43256). Other preliminary clinical research in patients with rapidly progressing glaucoma shows that taking a specific citicoline product (Neukron Ofta, Omikron), 500 mg orally daily for 4 four-month cycles over the course of 2 years, reduces the rate of visual field loss when compared with baseline (98448). The validity of both of these studies is limited by the lack of a comparator group. Small clinical studies in adults with open-angle glaucoma also show that treatment with intramuscular citicoline 1000 mg daily for 60 days improves visual evoked potentials, but not IOP, when compared with placebo or baseline (12173,43219,43256). Also, one clinical study shows that using a specific citicoline 2% eye drop (OMK1, Omicron) three times a day for 3 years reduces the loss of retinal nerve fibers and decreases visual field progression rates in patients with open-angle glaucoma and controlled IOP when compared with placebo (104827). Citicoline has also been used as part of a combination product. Preliminary clinical research in adults with primary open-angle glaucoma and controlled IOP shows that taking citicoline 500 mg, homotaurine 50 mg, and vitamin E 12 mg orally once daily for 4 months improves visual contrast sensitivity scores by less than 10% and self-reported quality of life scores by about 10% when compared with no additional interventions (104786). It is unclear if these effects are clinically relevant or if they are due to citicoline, other ingredients, or the combination.

POSSIBLY INEFFECTIVE

• Stroke. Oral or intravenous citicoline, started within 12-24 hours of onset of ischemic stroke symptoms, does not seem to improve outcomes in most patients. However, it may be modestly beneficial in those who are not candidates for recombinant tissue plasminogen activator (rtPA). Details: A meta-analysis of 10 trials shows that treatment with oral or intravenous citicoline 500-2000 mg daily for up to 6 weeks after ischemic stroke does not improve mortality, ability to complete activities of daily living, or neurologic function when compared with placebo or no intervention (104828). A different meta-analysis of 10 trials shows that treatment with oral or intravenous citicoline 250-2000 mg daily for up to 6 weeks after ischemic stroke increases the odds of recovery to independence by 56% and decreases the mortality rate and long-term disability by 10-12% when compared with placebo. However, this second meta-analysis included older, lower-quality trials in which the standard of care with conventional medicines was lower and ischemic stroke diagnoses were not confirmed via imaging (98228). Higher-quality trials have not confirmed these benefits, especially when patients receive early treatment with rtPA (98228,104828). A third meta-analysis of 7 trials with more limited inclusion criteria also did not demonstrate benefit on mortality or functional independence when compared with control (98447). Also, a large clinical trial of patients with moderate to severe acute ischemic stroke who received standard of care stroke management, including rtPA when indicated, shows that citicoline 1000 mg, administered intravenously over 30-60 minutes every 12 hours for 3 days and started within 24 hours of symptom onset, does not increase the rate of recovery at 90 days when compared with placebo (98444).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Alzheimer disease. It is unclear if oral citicoline is beneficial in patients with Alzheimer disease. Details: Preliminary clinical research in adults with Alzheimer disease shows that taking citicoline 1000 mg orally daily for 12 weeks modestly improves cognitive function scores when compared with placebo (43222). Observational research in adults with Alzheimer disease has also found that taking citicoline 1000 mg orally in conjunction with memantine and rivastigmine for up to 12 months is associated with clinically non-significant improvements in cognitive function scores when compared with memantine and rivastigmine alone. In addition, taking citicoline was not associated with improvement in depression scores or activities of daily living (105730).
• Amblyopia. It is unclear if oral or intramuscular citicoline is beneficial in patients with amblyopia. Details: Preliminary clinical research in children with amblyopia shows that taking citicoline orally once daily, in combination with covering the affected eye with a patch, for 12 months moderately improves visual acuity when compared with the patch alone. Children aged less than 5 years took 250 mg daily and children aged 5-13 years took 500 mg daily (98442). Retrospective research in children aged 5-6 years with amblyopia has also found that citicoline treatment for up to 8 months is associated with modest improvements in visual acuity when compared with baseline. However, preliminary subgroup analyses suggest that benefits may not last longer than 3-4 months (109017). Preliminary clinical research in older patients with amblyopia, aged 9-37 years, shows that treatment with intramuscular citicoline 1000 mg daily for 15 days improves visual acuity in both eyes for 92% of patients when compared with baseline (43281). The validity of this study is limited by the lack of a comparator group.
• Attention deficit-hyperactivity disorder (ADHD). Although there has been interest in using oral citicoline for ADHD, there is insufficient reliable information about the clinical effects of citicoline for this purpose.
• Bipolar disorder. It is unclear if oral citicoline is beneficial in patients with bipolar disorder. Details: Preliminary clinical research in adults with bipolar disorder and cocaine dependence shows that taking citicoline orally for 12 weeks improves verbal learning scores, but not symptoms of depression or mania, when compared with placebo. Citicoline was titrated from 500 mg daily to 2000 mg daily over the first 6 weeks and then continued at 2000 mg daily for 6 weeks (43248).
• Cardiac arrest. It is unclear if intravenous citicoline can improve outcomes in children with cardiac arrest. Details: A small clinical study in children 1-12 years of age with successful resuscitation from cardiac arrest shows that using citicoline 10 mg/kg intravenously every 12 hours for 6 weeks improves disability and coma scores at 12 weeks when compared with no intervention. This study also suggests that using citicoline reduces mortality by 80% and duration of hospitalization by 12% when compared with no intervention (105729). However, the small size of this study limits the reliability of these findings.
• Cerebrovascular disease. It is unclear if oral, intramuscular, or intravenous citicoline is beneficial in patients with cerebrovascular disease. Details: Several small clinical trials in adults with chronic cerebrovascular disease shows that treatment with citicoline 600-1000 mg orally daily for up to 12 months or 600-1000 mg intramuscularly or intravenously daily for up to 12 weeks moderately improves memory and behavior scores when compared with placebo or no intervention (12131,43240,43288,98443). One of these clinical trials failed to show improvement in activities of daily living, although the study may have been inadequately powered to detect a difference between groups (98443).
• Cocaine dependence. It is unclear if oral citicoline is beneficial in patients with cocaine dependence. Details: Preliminary clinical research in adults with cocaine dependence and bipolar disorder shows that taking citicoline orally for 12 weeks reduces the likelihood of positive urine cocaine test results when compared with placebo. Citicoline was titrated from 500 mg daily to 2000 mg daily over the first 6 weeks and then continued at 2000 mg daily for 6 weeks (43248). However, a post-hoc analysis suggests that the effects of citicoline on abstaining from cocaine use decline over time and were no different than placebo in the last weeks of the study (98230). In addition, other clinical research in adults with cocaine dependence that also received weekly counseling shows that taking citicoline 500 mg orally twice daily for 8 weeks does not reduce cocaine craving or consumption levels when compared with placebo (98445).
• Delirium. Although there has been interest in using oral citicoline for delirium, there is insufficient reliable information about the clinical effects of citicoline for this purpose.
• Depression. It is unclear if oral citicoline is beneficial in patients with depression. Details: Preliminary clinical research in patients with major depressive disorder shows that adding citicoline 100 mg orally twice daily for 6 weeks to citalopram therapy improves symptoms of depression, as measured by the Hamilton Depression Rating Scale, and increases the relative rate of remission by 64% when compared with placebo. These results suggest that for every 4 patients treated with citicoline, remission is expected in one additional patient (98446).
• Diabetic retinopathy. Citicoline eye drops have only been evaluated in combination with other ingredients; the effect of citicoline when used alone is unclear. Details: Preliminary clinical research in patients with mild diabetic retinopathy shows that using a specific ophthalmic solution containing citicoline 2% and cyanocobalamin 0.05% (OMK2, Omikron Italia) three times a day for 3 years decreases visual field progression rates and stabilizes retinal nerve fiber thickness when compared with placebo (104825).
• Intracranial hemorrhage. It is unclear if intravenous citicoline is beneficial in patients with intracranial hemorrhage. Details: Preliminary clinical research in patients with non-traumatic intracerebral hemorrhage shows that using citicoline 250 mg intravenously twice daily for 14 days improves muscular strength by 25% when compared with placebo (43252).
• Ischemic optic neuropathy. It is unclear if oral citicoline is beneficial in patients with ischemic optic neuropathy. Details: Preliminary clinical research in patients with non-arteritic ischemic optic neuropathy shows that taking a specific type of citicoline (Cebrolux-Tubilux) 1600 mg orally daily for 60 days improves visual acuity and visual evoked potentials when compared with no intervention (43250).
• Methamphetamine use disorder. It is unclear if oral citicoline is beneficial in patients with methamphetamine use disorder. Details: Preliminary clinical research in adults with methamphetamine dependence shows that taking citicoline 1000 mg orally twice daily for 8 weeks reduces the severity of cravings when compared with baseline, but not when compared with placebo. Taking citicoline also did not reduce the number of methamphetamine positive urine samples when compared with placebo (109015). This study may have been inadequately powered to detect a difference between groups.
• Parkinson disease. It is unclear if oral or intramuscular citicoline is beneficial in patients with Parkinson disease. Details: Preliminary clinical research shows that taking citicoline 1200 mg orally daily for one month improves Parkinson disease symptom scores when compared with no intervention (43259). Other preliminary clinical research in adults with Parkinson disease shows that treatment with citicoline 500 mg orally daily or citicoline 500-1000 mg intramuscularly daily for 30 days improves rigidity and bradykinesia scores, but not tremor scores, when compared with baseline (43253,43262). The validity of these studies is limited by the lack of a comparator group.
• Schizophrenia. It is unclear if oral citicoline is beneficial in patients with schizophrenia. Details: Preliminary clinical research in patients with chronic, stable schizophrenia shows that taking citicoline 1250 mg twice daily for 8 weeks as an add-on to risperidone therapy modestly reduces negative symptoms, but not positive symptoms, of schizophrenia when compared with placebo plus risperidone (100988). Other preliminary clinical research in patients with chronic, stable schizophrenia shows that taking citicoline 500 mg, 1000 mg, or 2000 mg as a single dose does not improve sensory gating when compared with placebo (100987). However, both studies may have been inadequately powered to detect a difference between groups.
• Traumatic brain injury (TBI). It is unclear if oral citicoline is beneficial in patients with TBI; the available research is conflicting. Details: A meta-analysis of 5 low-quality studies in patients with TBI shows that treatment with oral or intravenous citicoline up to 2000 mg daily for up to 9 days does not improve Glasgow outcome scores or cognitive performance. Additionally, one study included in this analysis showed no improvement in survival with citicoline when compared with placebo (98227). However, a very small clinical study not included in this analysis shows that taking citicoline 1000 mg orally daily improves memory, learning, and verbal ability in patients with TBI (43287). Some observational research has found that continuous intravenous infusion of citicoline 3000 mg over 24 hours for up to 21 days is associated with 6.7-fold greater odds of survival while in the intensive care unit (ICU) when compared with matched controls not receiving citicoline. Citicoline therapy was also linked to 2.6-fold greater odds of having a favorable outcome after 6 months, defined as a score of 5-8 on the extended version of the Glasgow Outcome Scale (100989). The discrepant results may be explained by differences in the severity of TBI at baseline and the doses of citicoline used in these studies.
• Vascular dementia. It is unclear if oral citicoline is beneficial in patients with vascular dementia. Details: Preliminary clinical research in adults with vascular dementia shows that taking citicoline 500 mg orally twice daily for 12 months does not improve neuropsychological symptom scores when compared with placebo (12135). More evidence is needed to rate citicoline for these uses.

(Read more about CITICOLINE)

EFFECTIVE

• L-carnitine deficiency. Oral and intravenous L-carnitine can treat primary and secondary L-carnitine deficiency. Details: Administering L-carnitine orally or intravenously is effective for acute or chronic treatment of primary L-carnitine deficiency or secondary L-carnitine deficiency due to inborn errors of metabolism. This is an FDA-approved indication for L-carnitine (4949,58611,59018). For primary or secondary deficiencies, oral L-carnitine 990 mg 2-3 times daily is used. For inborn errors of metabolism resulting in secondary L-carnitine deficiency, L-carnitine 50 mg/kg given as a slow (2-3 minute) bolus injection or by infusion followed by 50 mg/kg administered in divided doses every 3-4 hours over the next 24 hours is also used. Subsequent daily maintenance doses of intravenous L-carnitine are usually around 50 mg/kg (3616).

POSSIBLY EFFECTIVE

• Angina. Oral and intravenous L-carnitine may improve exercise tolerance and symptoms of angina during exercise in patients with angina. Details: Several small clinical trials in patients with chronic stable angina or cardiac syndrome X show that taking L-carnitine orally or intravenously seems to improve exercise tolerance and time to onset of angina when compared with placebo (3623,3624,58156,59096,59118,59216,59217,59230). Oral doses of L-carnitine have ranged from 900 mg to 2 grams daily in single or divided doses for 2 weeks to 6 months (3623,3624,58156,59096,59118,59217). Intravenous L-carnitine 3 grams in 500 mL of 5% dextrose, administered once daily for 14 days (59230), or intravenous DL-carnitine 40 mg/kg administered 30 minutes prior to exercise (59216) have also been used.
• Congestive heart failure (CHF). Oral and intravenous L-carnitine may improve exercise capacity and symptoms of heart failure in patients with CHF. Details: Several small clinical trials in patients with CHF show that taking L-carnitine 1.5-3 grams daily in single or divided doses for up to 34 months or administering intravenous L-carnitine 5 grams daily for 7 days seems to improve symptoms and increase exercise capacity when compared with placebo (3625,3626,58145,58771,58824). Also, taking a specific combination product containing L-carnitine 2250 mg and coenzyme Q10 270 mg (Carni Q-Gel, Tishcon Corporation) daily for 12 weeks appears to improve symptoms of CHF when compared with no treatment (58392).
• Hyperlipidemia. Oral or intravenous L-carnitine may slightly improve lipid levels. Oral, but not intravenous, L-carnitine may also improve lipoprotein(a) levels in patients with elevated lipoprotein(a). Details: Most meta-analyses of clinical research in patients with or without hyperlipidemia show that L-carnitine, given orally at a dose of 76 mg to 3 grams daily or intravenously at a dose of 15-20 mg/kg three times weekly, appears to reduce total cholesterol, low-density lipoprotein (LDL) cholesterol, and triglyceride levels by up to 9.5 mg/dL, 8.3 mg/dL, and 11.2 mg/dL, respectively, while increasing high-density lipoprotein (HDL) cholesterol by up to 1.6 mg/dL. Sub-analyses in patients with elevated levels of specific lipids shows that L-carnitine might be most beneficial in these populations (95073,102019,111886). However, clinical research is generally very low to moderate quality. Also, any effects of L-carnitine on these lipids are modest and might not be considered clinically significant. An umbrella meta-analysis of meta-analyses of clinical research shows that taking L-carnitine orally reduces total cholesterol, LDL cholesterol, and triglyceride levels by only 1.1 mg/dL, 4.8 mg/dL, and 2.5 mg/dL, with increases in HDL cholesterol of 0.7 mg/dL (111896). More information is needed on the effects of L-carnitine on lipid levels specifically in patients with hyperlipidemia. Some research has also evaluated the benefits of L-carnitine in people with hyperlipidemia and elevated lipoprotein(a) levels or those undergoing hemodialysis. Preliminary clinical research and a meta-analysis of clinical research in these populations shows that taking L-carnitine 1-2 grams daily for 8-24 weeks reduces levels of lipoprotein(a) by about 9 mg/dL when compared with control (58155,95073). However, giving L-carnitine intravenously 1 gram three times weekly or 4 grams daily does not improve lipoprotein(a) levels in these patients (95073). Also, oral or intravenous L-carnitine does not improve LDL cholesterol, HDL cholesterol, or triglyceride levels in these patients (58155,95073). Whether L-carnitine reduces the risk of cardiovascular events in patients with hyperlipidemia is unknown.
• Kidney failure. Intravenous, but not oral, L-carnitine is FDA-approved for the prevention and treatment of L-carnitine deficiency in patients with kidney failure undergoing hemodialysis. Any other benefits with the use of L-carnitine in patients on hemodialysis are unclear. Details: Patients with kidney failure undergoing maintenance hemodialysis often experience L-carnitine deficiency, which can lead to lipid, red blood cell, cardiac muscle, and skeletal muscle abnormalities (26496). Use of intravenous L-carnitine for the prevention and treatment of L-carnitine deficiency in people with kidney failure who are undergoing hemodialysis is an FDA-approved indication for L-carnitine. L-carnitine 10-20 mg/kg is given as a slow (2-3 minute) bolus injection, with dose adjustments made based on subsequent pre-dialysis L-carnitine concentrations (3616). However, oral L-carnitine is not FDA-approved for this purpose. There is concern that long-term administration of high doses of oral L-carnitine may result in accumulation of toxic metabolites, including trimethylamine and trimethylamine-N-oxide, in patients with kidney failure (3616). Research in other areas are conflicting. Most clinical research shows that taking L-carnitine 0.7-3 grams or 10 mg/kg daily or administering L-carnitine 2-6 grams or 30-60 mg/kg weekly via intravenous infusion can improve cardiac function, intravenous fistula complications, red blood cell count, hemoglobin, and C-reactive protein levels in patients on hemodialysis (9790,26496,58257,58437,58842,59009,59178,111877). A meta-analysis of 18 clinical studies in adults with kidney-related anemia undergoing hemodialysis shows that receiving oral or intravenous L-carnitine reduces erythropoietin responsiveness and erythropoiesis stimulating agent (ESA) requirement, but not hemoglobin level, when compared with placebo or conventional therapy, regardless of treatment duration or route of administration (107406). Despite an earlier meta-analysis suggesting that L-carnitine does not reduce the incidence of dialysis-related hypotension or muscle cramping (58511), a more recent meta-analysis shows that L-carnitine reduces the incidence of dialysis-related hypotension by 74% when compared with placebo (111878). However, sub-analyses suggest that only oral L-carnitine, and doses of over 4.2 grams weekly for at least 12 weeks, are effective for preventing hypotension (111878). A meta-analysis and some preliminary clinical research also show that muscle cramping is reduced by up to 78% when compared with controls (104176,111878). Additionally, observational research has found that administering at least 1 gram of L-carnitine per dialysis session for at least 10 sessions monthly is associated with a 10% to 20% decrease in the number of hospitalization days during the subsequent month (58409). However, L-carnitine may not be beneficial for improving other measures in people with kidney failure receiving dialysis. While some research shows that L-carnitine decreases lipoprotein(a) levels (44187), low-density lipoprotein (LDL) cholesterol levels (26496,91723,107399), and total cholesterol levels (107399), most research shows that it does not improve serum lipid levels (9790,26496,44187,58257,58320,58842,58939,59009,59025,59031)(59036,59059,59080,90633,91723,107399). Additionally, while one small clinical trial shows that taking L-carnitine can improve performance on some exercise tests (104179), most research shows that L-carnitine does not improve respiratory function or exercise performance. The effect on quality of life is unclear (58154,58437,58472,58743,59031,90633,111867,111877).
• Male infertility. Oral L-carnitine, taken alone or in combination with acetyl-L-carnitine, may increase sperm motility in males with infertility, leading to a greater likelihood of pregnancy in female partners. Details: Although some clinical research has yielded conflicting results (58209,58588,59020,90627,111861), most clinical research shows that taking L-carnitine 1-3 grams daily in divided doses for up to 24 weeks, with or without acetyl-L-carnitine 1 gram daily, increases sperm count and motility, and improves sperm morphology, in males with infertility of various etiologies (12352,58167,58182,58194,58334,58469,58831,58849,59129,59189)(59190,101560,107394,111861,111459,111888,111890). However, it is unclear if taking L-carnitine increases the odds of pregnancy. One meta-analysis of randomized controlled trials shows that taking L-carnitine and acetyl-L-carnitine in combination increases the odds of pregnancy by 3.7-fold over placebo. However most clinical research investigating the effect of L-carnitine alone or with acetyl L-carnitine on pregnancy rates disagrees (12352,58182,101560,111861,111459,111888). The number of studies investigating the effect of L-carnitine alone or with acetyl-L-carnitine on pregnancy rate is small and the duration of supplementation may be inadequate. Taking L-carnitine 1 gram and acetyl-L-carnitine 0.5 grams twice daily after taking nonsteroidal anti-inflammatory drugs for 2 months seems to increase sperm count and motility in males with abacterial prostatovesiculoepididymitis, an inflammation of the prostate gland, seminal vesicles, and epididymis (9791). Some studies have also evaluated L-carnitine in combination with other ingredients. One clinical trial in males with asthenospermia shows that taking L-carnitine 150 mg, acetyl-L-carnitine 50 mg, L-arginine 1660 mg, and Panax ginseng 200 mg daily for 3 months increases sperm motility and sexual satisfaction when compared with no treatment (32189). Another small clinical trial shows that taking this combination along with prulifloxacin 600 mg daily for 6 months improves sperm concentration and motility when compared with prulifloxacin alone in patients with chronic prostatitis due to Chlamydia trachomatis infection (59006). Other small and preliminary clinical studies have investigated the effects of a specific combination product providing L-carnitine 1 gram twice daily for 6 months, along with acetyl-L-carnitine, coenzyme Q10, selenium, zinc, vitamin C, folic acid, vitamin B12, and citric acid (Proxeed Plus). Taking this combination product has been shown to improve measures of sperm quality such as sperm count, sperm concentration, total motility, and progressive motility when compared to baseline. The effect on sperm volume and morphology is unclear. Most research has been conducted in patients with oligoasthenozoospermia, although some benefit has also been shown in patients with varicocele-related infertility, especially those with more severe varicocele (102017,107395,111296). The validity of these findings is limited by the lack of comparator group. Also, it is unclear if these effects are due to L-carnitine, other ingredients, or the combination. The effect of L-carnitine in combination with other ingredients on pregnancy rate has also been examined. One meta-analysis of moderate-quality clinical research shows that taking L-carnitine in combination with micronutrients increases the odds of pregnancy by 3.5-fold over placebo or no treatment (111888).
• Myocarditis. Oral DL-carnitine may prevent myocarditis in children with diphtheria. Details: Myocarditis is a complication of diphtheria. Clinical research in children with diphtheria shows that taking DL-carnitine 100 mg/kg daily for 4 days reduces the risk of myocarditis and mortality when compared with no treatment (3620,3621).
• Valproic acid-induced toxicities. Although more well-designed research is needed to confirm these findings, oral and intravenous L-carnitine may improve neurologic and hepatic function and reduce ammonia levels in patients with these valproic acid-induced toxicities. Details: Valproic acid-induced toxicities are often associated with low plasma and tissue levels of L-carnitine. Preliminary clinical research and case reports in patients on valproic acid therapy who have neurologic or hepatic deterioration or hyperammonemia show that taking L-carnitine 50-100 mg/kg daily in divided doses or administering L-carnitine 150-500 mg/kg daily via intravenous infusion seems to improve neurologic and hepatic function and bring plasma ammonia levels within normal limits (1438,1914,1915,1916,1917,4523,5798,5799,95068). There is also some preliminary evidence that intravenous L-carnitine can prevent the development of severe valproic acid-induced hepatotoxicity when given to patients being treated for overdose and accidental ingestion of valproic acid (1438,4528,5798,5799), especially if treatment is initiated early (4528). Despite these results, most evidence consists of anecdotal individuals or small case series. A more recent retrospective cohort study suggests that treatment with an L-carnitine dosing regimen consisting of a 100 mg/kg intravenous loading dose followed by up to 3 grams daily in divided doses for 3 days or until ICU discharge does not enhance valproic acid elimination or prevent organ dysfunction when compared with patients not treated with L-carnitine (111869). Also, taking L-carnitine does not appear to reduce valproic acid-associated weight gain (58295). Well-designed clinical trials are still needed to determine the role of L-carnitine in the treatment or prevention of valproic acid toxicities.

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Acne. Topical L-carnitine has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: One small clinical trial in patients with mild-to-moderate acne shows that applying a proprietary formulation containing L-carnitine, licochalcone, and 1,2-decanediol to the face twice daily for 8 weeks reduces the number of acne lesions and pustules and improves quality of life when compared to baseline. However, the improvements do not appear to be significant when compared with placebo (26493).
• Age-related fatigue. Small clinical studies suggest that oral L-carnitine may improve physical and mental fatigue associated with aging. Details: Two small clinical trials in elderly patients experiencing fatigue after slight physical activity shows that taking L-carnitine 2-4 grams daily for 1-6 months improves physical and mental fatigue, increases muscle mass, and decreases fat mass when compared with placebo (16109,16111).
• Aluminum phosphide poisoning. It is unclear if intravenous L-carnitine is beneficial in people with aluminum phosphide poisoning. Details: A meta-analysis of preliminary clinical research in patients with aluminum phosphide poisoning shows that intravenous L-carnitine does not reduce the odds of mortality when compared with control groups receiving routine treatments only (111892). However, only 2 studies were included in the analysis and both studies may have been underpowered to detect differences.
• Alzheimer disease. Oral L-carnitine has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: Preliminary clinical research in patients with mild to moderate Alzheimer disease shows that taking L-carnitine tartrate 3.73 grams, in combination with serine, nicotinamide riboside, and N-acetyl cysteine, daily for 28 days and then twice daily for 56 days does not improve cognitive function when compared with taking placebo. However, in patients with the most severe symptoms, there was some modest improvement (110623). This study may have been underpowered to detect differences. Also, the effect of L-carnitine alone is unclear.
• Androgenic alopecia. It is unclear if topical L-carnitine is beneficial in people with androgenic alopecia. Details: One small clinical trial in individuals with androgenic alopecia shows that applying topical L-carnitine 2% solution to the scalp twice daily for 6 months significantly increases the number of terminal hair shafts on the scalp when compared with placebo (58390).
• Anorexia nervosa. Although there has been interest in using oral L-carnitine for anorexia nervosa, there is insufficient reliable information about the clinical effects of L-carnitine for this purpose.
• Anthracycline cardiotoxicity. Oral and intravenous L-carnitine have only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: A small clinical trial in patients with breast cancer undergoing doxorubicin treatment shows that taking a combination of L-carnitine and vitamin E over 4 21-day treatment cycles decreases the proportion of patients with cardiac events by 24.2% when compared with chemotherapy treatment only. There were also modest beneficial effects on some enzyme measures of cardiac health. Patients received L-carnitine 3 grams intravenously on the first day of each cycle followed by an oral intake of 300 mg 4 times daily for the remaining 20 days. Vitamin E 1800 mg daily was taken orally in 3 divided doses (111891).
• Athletic performance. Oral L-carnitine has been evaluated for its effect on athletic performance in several small and short-term clinical studies, with mixed results. Details: Maximal exercise in trained athletes has been associated with a decrease in plasma L-carnitine levels (3648,58583). Theoretically, restoring these levels with L-carnitine supplementation might have beneficial effects. However, clinical studies examining the use of L-carnitine for athletic performance have reported conflicting results. Some clinical studies show that taking L-carnitine 2 grams, either before exercise or daily for up to 6 weeks, enhances athletic performance and endurance and reduces post-exercise muscle pain in male athletes and healthy untrained males (58450,59182,59185), but other studies do not support these findings (1947,59128,59134). Additionally, although some studies show that taking L-carnitine 1-2 grams or 40 mg/kg before exercise or 4 grams daily for 2 weeks can decrease lactate accumulation and increase oxygen uptake, power output, and time to anabolic threshold during exercise (3649,3650,59061,59184,59186), other studies show no improvement in these outcomes (58471,58775,59033,59045,59069,59128). These discrepancies may be related to the small study sizes, short treatment durations, and variable dosing regimens.
• Atrial fibrillation. It is unclear if oral L-carnitine is beneficial for preventing postoperative atrial fibrillation in patients undergoing aortic valve surgery. Details: A very small clinical study in patients undergoing aortic valve replacement or valve-sparing aortic root replacement shows that receiving oral L-carnitine (L-Cartin FF, Otsuka Pharmaceutical) 1 gram three times daily, beginning 2 days prior to surgery and continuing for 7 days after surgery, is associated with a postoperative atrial fibrillation rate of 20%, compared with a rate of 60% in a historical age-matched control group not receiving L-carnitine (107408).
• Attention deficit-hyperactivity disorder (ADHD). It is unclear if oral L-carnitine is beneficial in children with ADHD. Details: One small crossover trial in children with ADHD shows that taking L-carnitine 50 mg/kg twice daily for 6 months improves parent and teacher assessments of behavior when compared with placebo (58166).
• Autism spectrum disorder. Small clinical studies suggest that oral L-carnitine may improve some symptoms of autism spectrum disorder. Details: Small clinical trials in children 3-16 years of age with autism spectrum disorder show that taking L-carnitine 50 mg/kg or 150 mg/kg daily for 8 to 12 weeks modestly improves overall symptoms of autism, especially lethargy, social isolation, hyperactivity, and irritability, when compared with taking placebo. However, there is inconsistency between studies with respect to rating scales used and specific endpoints showing improvement. In one study, children remained on any pre-existing medications; in the other two, all children were also taking risperidone (58981,111887,111900).
• Arrhythmia. Small clinical studies suggest that oral L-carnitine may reduce the incidence of arrhythmias in patients with premature ventricular contractions. Details: Small clinical trials in patients with premature ventricular contractions show that taking L-carnitine 2 grams twice daily for 45 weeks or 2 grams three times daily for 2 weeks might reduce the incidence of arrhythmias when compared to baseline (59043,59120,59143).
• Asthenopia (eye strain). Oral L-carnitine has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: Preliminary clinical research in videoterminal users with computer vision syndrome and without dry eye shows that taking a product containing L-carnitine 50 mg, along with zinc and extracts of elderberry, black currant, and eleuthero root (Meramirt CM) daily for 1 month modestly reduces severity of eye strain and sensitivity when compared with not taking this product (111295). It is unclear if these findings are due to L-carnitine, other ingredients, or the combination.
• Beta-thalassemia. Small clinical studies suggest that oral L-carnitine may improve symptoms and reduce complications of beta-thalassemia minor, intermedia, and major. Details: Several small clinical trials in children with beta-thalassemia major show that taking L-carnitine 50 mg/kg daily for 3-6 months might reduce pulmonary artery systolic pressure, increase cardiac output during exercise, and improve progression to puberty (58294,58502,58556). Clinical research in adults with beta-thalassemia intermedia shows that taking L-carnitine with hydroxyurea appears to increase hemoglobin and hematocrit and reduce left ventricular end-diastolic diameter, a measure of pulmonary hypertension (58679). In patients with beta-thalassemia major or intermedia aged 6 years and up, taking L-carnitine 50 mg/kg daily for 6 months normalized left ventricular dilatation and hypertrophy in 30% and 37% of patients, respectively, compared with only 10% in those taking placebo. Cardiac output was also improved, but there were no changes in blood parameters (101565). Clinical research in children with beta-thalassemia minor shows that taking L-carnitine 50 mg/kg daily, with or without folic acid 1 mg daily, for 3 months appears to reduce bone pain by 84% to 87% and increase the number of climbable stairs 3.1- to 5.2-fold when compared with baseline (90631).
• Cachexia. Small clinical studies suggest that oral L-carnitine may improve body composition and quality of life in patients with cancer-related cachexia. Details: One small clinical trial in patients with cancer-related cachexia shows that taking L-carnitine 4 grams daily for 12 weeks increases body mass index (BMI) when compared with placebo (59029). Other research shows that taking L-carnitine 4 grams daily with megestrol acetate, eicosapentaenoic acid (EPA), and thalidomide for 5 months is more effective than any single product alone for increasing lean body mass in patients with cancer-related cachexia (23437). Additionally, taking L-carnitine 4 grams daily with megestrol acetate, celecoxib, and antioxidants for 4 months appears more effective than megestrol acetate alone for improving lean body mass, fatigue, and quality of life in these patients (59012).
• Cancer-related fatigue. It is unclear if oral L-carnitine is beneficial for improving fatigue in patients with advanced cancer. Details: Some cancer patients have low blood levels of L-carnitine, which may reduce energy production and lead to fatigue. Some small clinical trials in patients with advanced cancer show that taking L-carnitine 3-4 grams daily for 7 days significantly improves some measures of fatigue when compared to baseline (16106,16110). However, other higher quality clinical research shows that taking L-carnitine 2-4 grams daily for 4-12 weeks is no more effective than placebo for improving fatigue in advanced cancer patients (26498,58523,59029).
• Celiac disease. It is unclear if oral L-carnitine is beneficial in patients with celiac disease. Details: Some research shows that L-carnitine blood levels are low in patients with celiac disease. One small clinical trial in patients with celiac disease shows that taking L-carnitine 2 grams daily for 6 months lowers some measures of fatigue when compared with placebo. However, L-carnitine does not significantly improve measures of depression or quality of life in these patients (16105).
• Chemotherapy-related fatigue. It is unclear if oral L-carnitine is beneficial in patients with fatigue due to sunitinib therapy. Details: A small clinical study in adults with renal cell carcinoma who are experiencing fatigue associated with sunitinib treatment shows that taking L-carnitine 1500 mg daily for 2 weeks modestly improves fatigue severity when compared to baseline (100352). The validity of this finding is limited by the small study size and lack of a comparator group.
• Chronic fatigue syndrome (CFS). It is unclear if oral L-carnitine is beneficial in patients with CFS. Details: One small clinical study in adults with CFS shows that taking L-carnitine 1 gram three times daily for 2 months can improve some symptoms of CFS when compared to baseline (3630). The validity of this finding is limited by the lack of a comparator group.
• Chronic obstructive pulmonary disease (COPD). It is unclear if oral L-carnitine is beneficial in patients with COPD. Details: One small clinical study in adults with moderate to severe COPD shows that taking L-carnitine 2 grams daily for 6 weeks improves exercise performance and walking tolerance when compared with placebo (58213).
• Cirrhosis. Preliminary research suggests that oral L-carnitine may be beneficial in patients with cirrhosis. Details: One small clinical trial in patients with cirrhosis who are receiving branched-chain amino acids supplements to improve nutritional status shows that taking L-carnitine 1 gram orally daily for 6 months, in addition to increasing exercise by 2000 steps per day, does not improve muscle volume, handgrip strength, or leg strength, but does reduce complaints of muscle cramping, when compared to baseline (102124). Another small, uncontrolled clinical trial in patients with cirrhosis shows that taking L-carnitine 1800 mg daily for 6 months does not improve Child-Pugh scores, but may improve quality of life, when compared to baseline (104177). The validity of these studies is limited by the lack of comparator groups. The effect of L-carnitine has also been examined retrospectively in patients with cirrhosis. One retrospective study in matched patients that had been admitted to hospital for cirrhosis suggests that taking L-carnitine for more than 30 days is associated with an increase in survival length by about 21 months compared with not taking L-carnitine. Overall, L-carnitine use was also associated with a 36% to 48% increase in the proportion of patients surviving 1-5 years, with the greatest effect in patients with modest to severe liver dysfunction. The median dose of L-carnitine was 1000 mg daily for at least 6 months is associated with a reduced loss of skeletal muscle compared with not taking L-carnitine (111860). The validity of these studies is limited by their retrospective design.
• Cognitive function. It is unclear if oral L-carnitine is beneficial for improving cognitive function in healthy individuals. Details: Low-quality clinical research shows that taking L-carnitine 500 mg as a single dose or 250 mg twice daily for 3 days does not improve cognitive function or memory in otherwise healthy young adults when compared with placebo (58176,95070).
• Coronary heart disease (CHD). It is unclear if oral L-carnitine is beneficial in patients with CHD. Details: One small clinical trial in patients with CHD shows that taking L-carnitine 2 grams prior to exercise does not improve endurance when compared with placebo (58196). Another small clinical trial in patients with CHD shows that taking L-carnitine 1 gram daily for 12 weeks does not improve low-density lipoprotein (LDL) cholesterol, total cholesterol, or apolipoprotein-B when compared with placebo; however, it does appear to increase high-density lipoprotein (HDL) and apolipoprotein A-1 levels in these patients (95071).
• Coronavirus disease 2019 (COVID-19). It is unclear if oral L-carnitine is beneficial for COVID-19 prevention or treatment. Details: Preliminary clinical research in patients hospitalized with mild to moderate COVID-19 shows that taking L-carnitine 1 gram 3 times daily for 5 days does not reduce the incidence of fever or cough when compared with standard treatments only. However, all patients taking L-carnitine survived compared with 86% of those given standard treatment only. Also, there were improvements in oxygen saturation and inflammatory measures (111874). Other clinical research in patients with confirmed asymptomatic or mild COVID-19 shows that taking L-carnitine tartrate (Carnipure) 1 gram 3 times daily for 21 days does not prevent the development of severe lung symptoms when compared with taking placebo. However, in a sub-group of patients, lung lesion improvement was significantly better between days 7 and 14. In adults without COVID-19 but living with someone with confirmed disease, taking this product does not prevent COVID-19 when compared with taking placebo. However, the total number of confirmed illnesses in the population was low (111898).
• Critical illness (trauma). It is unclear if oral or nasogastric L-carnitine is beneficial for critical illness. Details: One small clinical trial in critically ill patients in the ICU shows that receiving L-carnitine (BSK, Zist Takhmir Co, Tehran-Iran) 3 grams daily via a nasogastric tube for 7 days modestly improves disease severity, organ function, inflammatory and other laboratory measures when compared with receiving placebo. Also, mortality rate was reduced by approximately 50%. There was no effect on the duration of hospital or ICU stay (111883,111884). However, another small clinical trial in critically ill patients following an acute ischemic stroke shows that oral or nasogastric L-carnitine tartrate 500 mg every 8 hours for 6 days does not affect the duration of mechanical ventilation or hospital or ICU stay, the severity of illness, or 28-day mortality rates, when compared with taking placebo. There was a modest beneficial effect on insulin resistance (111881). This study was small and may have been underpowered to detect differences.
• Diabetes. Oral L-carnitine may improve glycemic control in patients with diabetes, but it is unclear if these improvements are clinically meaningful. It is also unclear if L-carnitine can improve lipid profiles or weight loss in these patients. Details: While individual study results are mixed (58169,58189,58514,58793,90632,96922,101561), meta-analyses of available clinical research in mixed populations shows that taking L-carnitine 200 mg to 4 grams daily reduces fasting plasma glucose and glycated hemoglobin (HbA1C) levels, and possibly insulin, and improves insulin resistance, when compared with taking placebo or a control diet, although the clinical significance of these improvements is unclear (102018,111875,111886). One meta-analysis shows that these benefits are generally specific to patients with high levels of fasting glucose, diabetes, or obesity, as well as studies investigating L-carnitine in doses of at least 2 grams daily for 12 weeks. However, a small number of studies included in this analysis investigated the effects of acetyl-L-carnitine (111875). Other research in obese patients with type 2 diabetes shows that, when taken with orlistat or sibutramine, L-carnitine 2 grams daily for 12 months decreases body weight and body mass index and improves glycemic control when compared with orlistat or sibutramine alone (58778,58830,58882). The effect of L-carnitine on lipids in people with diabetes is unclear. Some studies show significant reductions in total cholesterol, low-density lipoprotein cholesterol, triglycerides, and/or lipoprotein(a) (58554,58647,58649,90632,101561,107397), while other studies show no improvement in lipid profiles (58169,58189).
• Dilated cardiomyopathy. Small clinical studies suggest that oral L-carnitine may improve ejection fraction in children with dilated cardiomyopathy and adults with ischemic cardiomyopathy. Details: Primary L-carnitine deficiency is a common cause of pediatric dilated cardiomyopathy. Additionally, patients with dilated cardiomyopathy of unknown etiology have been shown to have low cardiac levels of L-carnitine (59196,100351). Due to these findings, L-carnitine has been evaluated for the treatment of dilated cardiomyopathy in children and adults, but the small sizes of these studies and methodological limitations limit the reliability of the results. One small clinical study in children under 13 years of age with dilated cardiomyopathy shows that taking L-carnitine 50-100 mg/kg daily for 1 year in conjunction with standard care improves ejection fraction and reduces left atrial and ventricular diameters when compared with placebo and standard care (100351). The results of this study are limited by the small sample size, unclear etiology of dilated cardiomyopathy, and potential bias. Another small clinical study in children under 5 years of age with dilated cardiomyopathy and low serum levels of L-carnitine shows that taking L-carnitine 100 mg/kg daily for 3 months improves left ventricular ejection fraction (LVEF), cardiac output, and New York Heart Association (NYHA) classification when compared with baseline (59196). Further research is needed to clarify whether L-carnitine is beneficial for most children with dilated cardiomyopathy, or only those with carnitine deficiency. L-carnitine has also been evaluated in older adults. A meta-analysis of clinical studies in mostly older adults with dilated cardiomyopathy shows that addition of intravenous L-carnitine, alone or followed by oral L-carnitine, 1-6 grams daily to conventional therapy for a total of 10-28 days is associated with a 28% increased likelihood of overall efficacy, with improvements observed in both LVEF and cardiac output, when compared with conventional therapy alone (107405). The validity of these findings is limited by the heterogeneity of the included studies, potential publication bias, and unclear reporting. A small individual clinical study in older adults with ischemic cardiomyopathy shows that taking oral L-carnitine daily for 2 months improves LVEF when compared with baseline (58150). The validity of this finding is limited by the lack of a comparator group.
• Dry eye. Topical L-carnitine has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: Evidence suggests that chronic use of eye drops containing benzalkonium chloride can cause tear film instability and lead to dry eye (90921). One small clinical trial in patients with glaucoma using eye drops containing benzalkonium chloride shows that using additional eye drops containing L-carnitine (1.017%), eledoisin (0.04%), taurine (0.49%), sodium hyaluronate (0.20 grams/100 mL), and vitamin E acetate (0.20 grams/100 mL) (Carnidrop Plus, Sigma-Tau) three times daily for 15 days reduces dry eye symptoms by approximately 50% when compared to baseline (90625). It is unclear if these findings are due to L-carnitine, other ingredients, or the combination.
• Endometriosis. Although there has been interest in using oral L-carnitine for endometriosis, there is insufficient reliable information about the clinical effects of L-carnitine for this purpose.
• Exercise-induced muscle damage. It is unclear if oral L-carnitine tartrate is beneficial for exercise recovery. Details: A small clinical study in healthy males and females participating in moderate physical activity at least 3 days weekly shows that taking a specific product (Carnipure, Lonza Consumer Health, Inc.) providing elemental L-carnitine 2 grams daily for 5 weeks improves perceived recovery and soreness as well as serum creatine kinase levels by 33% and 28%, respectively, when compared with placebo (107398).
• Exercise-induced muscle soreness. Small clinical studies suggest that oral L-carnitine may slightly reduce exercise-induced muscle soreness. Details: Evidence from mostly small clinical trials, when considered alone or combined via meta-analysis, shows that taking L-carnitine 1-3 grams daily for around 3 weeks modestly reduces exercise-induced muscle soreness, especially in the period of 24-48 hours after exercise. Benefits may last up to 96 hours post-exercise. Levels of creatinine kinase, lactate dehydrogenase, and myoglobin also appear to improve with L-carnitine supplementation, reflecting a reduction in muscle damage (58326,58709,59148,101567).
• Hepatic encephalopathy. Oral or intravenous L-carnitine may improve biochemical markers of disease severity in patients with hepatic encephalopathy, but L-carnitine does not seem to improve clinically important outcomes such as fatigue, quality of life, or overall disease severity. Details: A meta-analysis of nine studies in adults with hepatic encephalopathy shows that taking L-carnitine 1-6 grams daily orally or intravenously for up to 90 days increases albumin levels and decreases plasma levels of ammonia, bilirubin, aspartate aminotransferase (AST), blood urea nitrogen (BUN), and creatinine, but does not improve fatigue or quality of life, when compared with placebo (102122). A more recent clinical trial shows that taking L-carnitine 2 grams daily for 24 weeks modestly improves bilirubin levels and some measures of cognitive and liver health, but not quality of life, when compared with taking placebo (111876). Two of the clinical trials included in this analysis also show that taking L-carnitine 2 grams daily for 60-90 days significantly improves cognitive function when compared with placebo in adults with hepatic encephalopathy (58174,58204). Another small clinical trial in patients with advanced liver cirrhosis shows that L-carnitine improves psychometric response to the ammonia tolerance test, suggesting that L-carnitine might be useful in the prevention of hepatic encephalopathy (58872). L-carnitine has also been evaluated in combination with rifaximin. A small clinical study in patients with overt hepatic encephalopathy shows that taking oral L-carnitine 1500 mg in combination with rifaximin 1200 mg three times daily for 12 weeks has no effect on the modified portal systemic encephalopathy index when compared with rifaximin alone. L-carnitine improved blood ammonia levels at 4 weeks, but not at 8 or 12 weeks (107410).
• Hepatitis-related fatigue. It is unclear if oral L-carnitine is beneficial in patients with hepatitis-related fatigue. Details: One small clinical trial in patients with hepatitis C who are receiving interferon-alpha treatment shows that taking L-carnitine 2 grams daily significantly reduces fatigue when compared with interferon-alpha alone. L-carnitine appears to reduce fatigue within the first 3 months of treatment, but not after 6 months (16104).
• Hepatitis B. Oral L-carnitine has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: Clinical research in patients with hepatitis B shows that taking a specific vitamin complex providing L-carnitine 2472 mg (Godex, Celltrion Pharm) in combination with entecavir 0.5 grams daily for 12 months normalizes alanine transaminase (ALT) levels in 95% and 100% of patients after 3 months and 12 months, respectively, compared to 59% and 86% of patients taking entecavir alone. However, the L-carnitine complex does not appear to improve aspartate transaminase (AST) levels or reduce hepatitis B virus titers (91724). It is unclear if these findings are due to L-carnitine, other ingredients, or the combination.
• Hepatitis C. Small clinical studies suggest that oral L-carnitine may improve response to treatment and markers of liver function in patients with hepatitis C. Details: Two small clinical trials in patients with chronic hepatitis C show that taking L-carnitine 2 grams once or twice daily along with interferon-alpha and ribavirin for 12 months modestly improves response to treatment, increases hemoglobin and red blood cell counts, reduces aspartate aminotransferase (AST) and alanine aminotransferase (ALT) levels, and reduces steatosis when compared with interferon-alpha and ribavirin treatment alone (58405,59010).
• HIV/AIDS. Although there has been interest in using intravenous L-carnitine to increase CD4 counts in patients with HIV/AIDS, there is insufficient reliable information about the clinical effects of L-carnitine for this purpose.
• Hyperthyroidism. It is unclear if oral L-carnitine is beneficial in patients with hyperthyroidism. Details: One small clinical trial in females with hyperthyroidism shows that taking L-carnitine 2-4 grams daily for 2-6 months seems to significantly improve symptoms associated with hyperthyroidism, such as palpitations, nervousness, tremors, and asthenia, when compared with placebo (8047).
• Hypertriglyceridemia. It is unclear if oral L-carnitine is beneficial in patients with hypertriglyceridemia. Details: Small clinical studies in patients with hypertriglyceridemia show that taking L-carnitine 1 gram daily for 12 weeks does not reduce triglyceride levels when compared with placebo (59028,59244).
• Hypothyroidism. It is unclear if oral L-carnitine is beneficial for improving fatigue in patients with hypothyroidism. Details: One small clinical trial in patients with secondary hypothyroidism shows that taking L-carnitine (Ildong Pharmaceutical Co.) 990 mg twice daily for 12 weeks in addition to adequate doses of levothyroxine does not reduce overall fatigue severity when compared with placebo. However, taking L-carnitine might improve physical and mental fatigue in patients with secondary hypothyroidism that are less than 50 years of age. L-carnitine might also improve mental fatigue in patients that underwent thyroidectomy for thyroid cancer (95069).
• Infertility. It is unclear if oral L-carnitine is beneficial for female infertility. Details: One uncontrolled clinical trial in females who had failed to conceive in previous in vitro fertilization (IVF) cycles shows that taking L-carnitine (L-CAR Basic Premium; AA Project Co. ltd.) 1000 mg daily for an average of 82 days does not improve the number of retrieved oocytes or fertilization rates when compared with previous IVF cycles. However, embryo quality at days 3 and 5 of insemination was improved, resulting in an increase in the rate of transferable embryos from 60% in previous cycles to 67%, morphologically good-quality embryos from around 46% to 54%, and blastocysts from around 11% to 21%. The most evidence of benefit was seen in those taking L-carnitine for the shortest time length of 7-44 days (96933).
• Intermittent claudication. Although there has been interest in using oral L-carnitine for intermittent claudication, there is insufficient reliable information about the clinical effects of L-carnitine for this purpose.
• Liver disease. Small clinical studies suggest that oral L-carnitine may modestly improve some, but not all, lipid parameters in adults with liver disease. Details: A meta-analysis of six small, low-quality clinical trials in patients with hepatitis C, nonalcoholic steatohepatitis (NASH), and nonalcoholic fatty liver disease (NAFLD) shows that taking L-carnitine moderately reduces total cholesterol and slightly reduces triglyceride levels, but does not improve low-density lipoprotein (LDL) cholesterol or high-density lipoprotein (HDL) cholesterol levels, when compared with control. Studies evaluating L-carnitine doses of 2 grams daily or less and study durations of 24 months or longer showed the largest effect on lipid levels (104178). Another meta-analysis of preliminary clinical research in patients with hepatitis B or C, hepatic encephalopathy, NASH, or NAFLD shows that taking L-carnitine modestly reduces levels if aspartate aminotransferase (AST) and alanine aminotransferase (AST) when compared with taking placebo or no L-carnitine. Some of the studies included in this analysis used acetyl-L-carnitine. However, a meta-analysis of two studies investigating the effect of carnitine orotate shows that taking this compound increases the proportion of patients with normal ALT levels by 4.6 fold (111871).
• Liver transplant. It is unclear if oral L-carnitine is beneficial in patients awaiting a liver transplant. Details: One small clinical trial shows that taking L-carnitine 500 mg three times daily while awaiting a liver transplant does not reduce the incidence of primary graft dysfunction (PGD) or non-function (PNF) when compared with placebo. However, survival one month after surgery was 97% in those taking L-carnitine, compared with 74% in those taking placebo (101562). This study may have been inadequately powered to detect a difference in the incidences of PGD and PNF between groups.
• Low birth weight. It is unclear if oral or intravenous L-carnitine is effective for increasing body weight in preterm infants. Several small clinical studies show conflicting results. Details: Several very small clinical trials in preterm infants receiving total parenteral nutrition show that administering L-carnitine orally at a dose of 13-60 mcmol/kg or intravenously at a dose of 10 mg/kg or 50-100 mcmol/kg daily can improve fat utilization and weight gain when compared with control (3633,3634,3635,3636,3637,58902,59097). However, other small clinical studies show that supplementation with L-carnitine does not significantly increase body weight in preterm infants (58190,58800,59161). The reasons for the discrepant findings are unclear, but due to small study size, some of the studies may have been underpowered to detect significant differences between groups.
• Lyme disease. Although there has been interest in using oral L-carnitine for Lyme disease, there is insufficient reliable information about the clinical effects of L-carnitine for this purpose.
• Metabolic syndrome. It is unclear if oral or intravenous L-carnitine is beneficial in patients with metabolic syndrome. Details: One very small clinical trial in patients with metabolic syndrome undergoing 2 days of moderate calorie restriction followed by a 5-day modified fasting period shows that intravenous L-carnitine 2 grams twice daily for 7 days increases weight loss by 1.4 kg and decreases waist circumference by 3.3 cm when compared with intravenous saline. Perceived hunger scores, physical fatigue, and insulin levels were also improved. However, there were no effects on blood pressure (90634). Other clinical research in patients with metabolic syndrome and a total carotid plaque volume of at least 50 mm³ shows that taking L-carnitine 2 grams daily for 6 months does not affect the progression of carotid plaque volume when compared with taking placebo. Also, taking L-carnitine increased the progression of carotid plaque stenosis by 9.3%, as well as levels of low-density lipoprotein (LDL) cholesterol, in this population (111879).
• Migraine headache. It is unclear if oral L-carnitine is beneficial in patients with migraine headaches. Details: One small clinical trial in patients with migraines shows that taking L-carnitine 500 mg daily, with or without magnesium oxide, for 12 weeks does not significantly reduce migraine frequency or severity when compared with a control (59030). However, another small preliminary clinical trial in children with episodic migraines shows that taking L-carnitine 25 mg per kg twice daily for 12 weeks prophylactically is as effective as taking propranolol 1 mg/kg once daily for reducing the frequency, severity, and duration of migraine headaches (111870). These studies were small and may have been underpowered to detect differences between groups.
• Muscle cramps. It is unclear if oral L-carnitine is beneficial in patients with muscle cramps. Details: One small, uncontrolled clinical trial in adults with type 2 diabetes shows that taking L-carnitine 300 mg twice daily for 4 months decreases the monthly frequency of muscle cramps from around 4 cramps per month at baseline to around 1 cramp per month after treatment. When compared with baseline, pain was also reduced by about 1 point on a 5-point scale (96922). However, the lack of a placebo control group limits the validity of these findings.
• Multiple sclerosis-related fatigue. It is unclear if oral L-carnitine is beneficial in patients with multiple sclerosis-related fatigue. Details: Some patients with multiple sclerosis have low blood levels of L-carnitine. Additionally, immunosuppressive therapy for multiple sclerosis can cause fatigue. One small, open-label clinical trial in patients with multiple sclerosis receiving immunosuppressive therapy and with low L-carnitine levels shows that taking L-carnitine 3-6 grams daily decreases some measures of fatigue when compared with no treatment (16107).
• Myocardial infarction (MI). It is unclear if oral or intravenous L-carnitine is beneficial in patients who have experienced an MI. Details: Some clinical research shows that taking L-carnitine orally or intravenously after MI reduces premature ventricular beats (58172,59044), improves myocardial viability (59248) and left ventricular function (3628), and reduces mortality (3627,3629,59037). However, other studies show no change in left ventricular functioning (58148) or mortality after taking L-carnitine (3628,58225,90630). The reasons for these discrepant findings are unclear, but may be due to differences in the dosing regimens and length of follow-up. Oral L-carnitine doses have ranged from 2-4 grams daily for up to 12 months (3627,3629,59248). Intravenous L-carnitine has been dosed at 5 grams within the first 36 hours after an MI followed by 3 grams twice daily on days 3-7 (58172), 100 mg/kg every 12 hours for 36 hours (59044), or 9 grams daily for 5 days followed by oral L-carnitine 6 grams daily for 12 months (3628).
• Narcolepsy. It is unclear if oral L-carnitine is beneficial in patients with narcolepsy. Details: One small clinical trial in patients with narcolepsy shows that taking L-carnitine 340 mg in the morning and 170 mg in the evening for 8 weeks reduces dozing off time during the day by about 9 minutes when compared with placebo. However, the number of naps needed, quality of life, and sleepiness are not affected (90624).
• Neonatal apnea. It is unclear if intravenous L-carnitine is beneficial for preventing neonatal apnea in premature infants. Details: One small clinical trial in premature infants shows that adding L-carnitine 30 mg/kg daily to total parenteral nutrition or oral feeds does not affect ventilator requirements or reduce the incidence of apnea when compared with placebo (58163).
• Nonalcoholic fatty liver disease (NAFLD). It is unclear if oral L-carnitine is beneficial in children and adults with NAFLD. Details: One small clinical study in adults with NAFLD shows that taking L-carnitine 600 mg daily for 3 months improves markers of liver function when compared with baseline. No improvements in liver function markers were reported in patients in the control group; however, no statistical comparisons were conducted between groups (58808). A small clinical study in children aged 5-15 years with NAFLD receiving vitamin E shows that taking L-carnitine 25 mg/kg twice daily (maximum of 500 mg twice daily) for 3 months has no effect on aminotransferase concentrations or sonographic grades of fatty liver when compared with placebo (107401).
• Nonalcoholic steatohepatitis (NASH). It is unclear if oral L-carnitine is beneficial in patients with NASH. Details: One small clinical trial in patients with NASH shows that taking L-carnitine 1 gram after breakfast and 1 gram after dinner daily along with following a specific diet improves markers of liver function when compared with diet alone (58715). Another small clinical trial in patients with obesity and nonalcoholic steatohepatitis taking simvastatin 20 mg daily and following a hypocaloric diet shows that taking L-carnitine 10 mL twice daily for 90 days modestly reduces BMI, and improves liver health, lipid, and glycemic indices, when compared with taking a product described as essential phospholipids (111893).
• Obesity. Oral L-carnitine seems to have a small effect on weight loss in overweight or obese individuals when taken for up to 6 months, but some conflicting results exist. Doses of 2 grams daily seem to offer the most benefit. Details: Meta-analyses of clinical trials show that taking L-carnitine 250 mg to 4 grams daily reduces weight and body mass index (BMI) by a small amount when compared with a control group not taking L-carnitine (95074,101563,101564). Subgroup analyses show that L-carnitine only reduces BMI and weight in overweight or obese patients. Taking L-carnitine did not affect weight or BMI in patients with a BMI of up to 25 kg/m2 or in patients undergoing hemodialysis (101563,101564). Another subgroup analysis shows that the largest benefit occurs at a dose of 2 grams daily (101564). In patients with obesity and nonalcoholic steatohepatitis taking simvastatin 20 mg daily and following a hypocaloric diet, one clinical trial shows that taking L-carnitine 10 mL twice daily for 90 days modestly reduces BMI, and improves liver health, lipid, and glycemic indices, when compared with taking a product described as essential phospholipids (111893). However, conflicting results exist. One subgroup analysis in overweight or obese individuals shows that there is no effect on BMI when L-carnitine is taken for 24 weeks or more (101563). One meta-analysis of two small clinical trials in patients with overweight or obesity shows that taking L-carnitine is no more effective than lifestyle modification for reducing body weight (111866). Also, some clinical research shows that taking L-carnitine does not reduce body weight in obese females. Doses used in these studies include L-carnitine 1 gram daily for 12 weeks or 2 grams twice daily for 8 weeks along with exercise (58151,111872). The effect of L-carnitine on cardiovascular risk has also been examined in patients with obesity. One small clinical trial shows that taking L-carnitine 1 gram daily for 12 weeks modestly reduces the lipid accumulation index, based on waist circumference and blood triglyceride levels, when compared with taking placebo. However, there was no effect on other cardiovascular risk indices based on ratios of triglycerides, high-density lipoprotein (HDL) cholesterol, and/or low-density lipoprotein (LDL) cholesterol levels (111872). L-carnitine has also been evaluated in combination with weight loss medications. Clinical research shows that taking L-carnitine 2 grams daily along with orlistat 360 mg daily or sibutramine 10 mg daily for 1 year decreases body weight and BMI when compared with orlistat or sibutramine alone in obese adults with type 2 diabetes (58778,58830,58882).
• Osteoarthritis. It is unclear if oral L-carnitine is beneficial in patients with knee osteoarthritis. Details: A small clinical study in females with knee osteoarthritis and overweight or obesity who are on a low-calorie diet shows that taking L-carnitine 1 gram daily for 12 weeks does not improve pain, stiffness, or physical function when compared with placebo (107403).
• Pemphigus. Although there has been interest in using oral L-carnitine for glucocorticoid-induced muscle wasting in patients with pemphigus, there is insufficient reliable information about the clinical effects of L-carnitine for this purpose.
• Peripheral arterial disease (PAD). It is unclear if oral L-carnitine is beneficial in patients with PAD. Details: One small clinical trial in patients with PAD shows that taking L-carnitine 2 grams twice daily for 3 weeks may improve walking distances in people with PAD (3631). However, another small clinical trial in patients with PAD or coronary heart disease shows that taking L-carnitine 2 grams two hours before exercise does not improve endurance (58196). Also, adding L-carnitine 1 gram twice daily to cilostazol therapy for 180 days does not appear to confer additional benefit in this patient population (59023).
• Polycystic ovary syndrome (PCOS). It is unclear if oral L-carnitine is beneficial for improving pregnancy rates or cardiovascular risk in people with PCOS. The effect of L-carnitine on body composition has promising results. Details: Clinical research shows that adding L-carnitine 3 grams daily for 3 months to standard clomiphene plus metformin therapy improves menstrual regularity by 20%, ovulation rate by 24%, and pregnancy rate by 21% when compared with placebo (102123). Preliminary clinical research in patients with PCOS who are resistant to both clomiphene and human chorionic gonadotropin (HCG) shows that taking L-carnitine 2 grams twice daily from day 3 of clomiphene treatment until HCG injection results in the presence of a dominant follicle in 64% of cycles and pregnancy in 20% of cycles (96936). However, L-carnitine may not be beneficial in combination with assisted reproductive technology (ART), including in vitro fertilization and intracytoplasmic sperm injection. A small clinical study in patients with PCOS receiving ART in combination with a gonadotropin-releasing hormone antagonist protocol shows that adding L-carnitine 3000 mg daily during the induction of ovulation (from the second day of the cycle until the day of oocyte triggering) does not improve pregnancy rates in frozen-thawed embryo transfer cycles when compared with control (107409). The effect of L-carnitine has also been examined on anthropometric and cardiovascular risk indices in patients with PCOS. One small clinical study shows that taking L-carnitine 250 mg daily for 12 weeks reduces body weight by 2.8 kg, body mass index (BMI) by 1.2 kg/m2, waist circumference by 1.7 cm, and hip circumference by 2.2 cm when compared with placebo (96935). A meta-analysis of this and other small studies also shows that L-carnitine modestly reduces BMI when compared with placebo in patients with PCOS (111873). Although several studies also show improvements in markers of glycemic control and insulin sensitivity, most research does not support beneficial effects on lipid levels, cardiovascular risk, or liver fat content (96935,107402,107404).
• Rett syndrome. It is unclear if oral L-carnitine is beneficial in patients with Rett syndrome. Details: Two small clinical studies in children with Rett syndrome show that taking L-carnitine 100 mg/kg daily in two or three divided doses for up to 6 months modestly improves well-being, motor skills, sleep efficiency, and communication skills when compared with control or placebo (1433,58161).
• Sarcopenia. Oral L-carnitine may be beneficial for preventing sarcopenia in adults over 75 years of age, but not in healthy older females. Details: One small clinical trial in healthy, active, older females aged 65-70 years shows that taking L-carnitine, as L-carnitine-l-tartrate 1500 mg, daily for 24 weeks does not improve muscle strength or muscle mass when compared with placebo (96930). An additional preliminary clinical trial in females aged 60-75 years taking part in a twice weekly resistance exercise program shows that taking L-carnitine tartrate 1 gram daily with L-leucine 3 grams daily for 24 weeks does not improve muscle strength or volume when compared with taking L-leucine 4 grams daily or no supplementation (111880). These studies were small and may have been underpowered to detect differences. In contrast, in weaker adults 75 years of age and older, taking L-carnitine 2-4 grams daily for 1-6 months increases muscle mass by approximately 2-4 kg when compared with placebo (16109,16111).
• Sepsis. Small clinical studies suggest that intravenous L-carnitine may not reduce mortality in patients with sepsis, although patients with more severe sepsis may see some benefit. Details: Meta-analyses of generally low-quality small clinical trials in patients with sepsis shows that intravenous administration of L-carnitine, 2-6 grams as a bolus followed by a 4-12 gram infusion, does not reduce the risk of 28-day or 1-year mortality when compared with placebo (104180,111868). However, in a subgroup analysis of patients with more severe sepsis, classified as those with a sequential organ failure assessment score (SOFA) of greater than 12, the risk of 1-year mortality was reduced by 32% when compared with placebo (104180).
• Spinal muscular atrophy. Although there has been interest in using oral L-carnitine for spinal muscular atrophy, there is insufficient reliable information about the clinical effects of L-carnitine for this purpose.
• Theophylline-induced cardiac toxicity. It is unclear if intravenous L-carnitine is beneficial in patients with theophylline-induced cardiac toxicity. Details: One small clinical trial shows that intravenous administration of L-carnitine 100 mg/kg over 30-60 minutes followed by 50 mg/kg every 8 hours along with intravenous propranolol within 24 hours of theophylline intoxication improves symptoms associated with theophylline-induced cardiac toxicity when given along with standard treatment. This combination led to greater improvements than either agent used alone. These included improvements in serum theophylline levels, heart rate, arrhythmia, mean arterial pressure, and duration of hospital stay. When L-carnitine was used without propranolol, only respiratory rate and theophylline levels over 24 hours were improved to a greater extent than with standard treatment alone (101566).
• Toxin-induced liver damage. Small clinical studies have evaluated oral and intravenous L-carnitine for the management of liver damage caused by different classes of drugs, including antimycobacterial antibiotics and asparaginase-based agents, with promising results. Details: The antimycobacterial antibiotics used to treat tuberculosis, including isoniazid, rifampicin, and pyrazinamide, have been associated with hepatotoxicity (90922). Clinical research shows that taking L-carnitine 2 grams in two divided doses daily for 4 weeks along with a standard treatment regimen for tuberculosis reduces the percentage of treatment-naïve patients with drug-induced hepatotoxicity by almost half when compared with placebo (26499). The asparaginase-based medications have also been associated with hepatotoxicity. Two case series of children with hyperbilirubinemia caused by treatment with L-asparaginase or pegaspargase show that administering intravenous L-carnitine 50-100 mg/kg daily improves bilirubin levels (100353,100354). One case series also suggests that taking oral L-carnitine 50-100 mg/kg daily can help to prevent hyperbilirubinemia in patients with a history of asparaginase-induced hepatotoxicity (100353).
• Traumatic brain injury (TBI). Although there has been interest in using oral L-carnitine for TBI, there is insufficient reliable information about the clinical effects of L-carnitine for this purpose.
• Urinary tract infections (UTIs). It is unclear if oral L-carnitine is beneficial in children with UTIs. Details: One small clinical trial in children 6 months to 10 years of age shows that taking L-carnitine 50 mg/kg daily as a syrup along with antibiotics for 7 days prevents renal scarring associated with acute pyelonephritis. Kidney damage was resolved in 50% of children taking L-carnitine, compared with 13% of children taking placebo. There were no differences in urine cultures between groups (101568).
• Venous leg ulcers. Although there has been interest in using oral L-carnitine for venous leg ulcers, there is insufficient reliable information about the clinical effects of L-carnitine for this purpose. More evidence is needed to rate L-carnitine for these uses.

(Read more about L-CARNITINE)

POSSIBLY EFFECTIVE

• Athletic performance. Small studies show that taking a single oral dose of L-citrulline before anaerobic resistance exercise might reduce exhaustion and improve some performance measures. It is unclear if L-citrulline improves aerobic exercise performance; results are conflicting. Details: A meta-analysis of small clinical trials in healthy trained and untrained adults shows that taking L-citrulline prior to mostly anaerobic exercise marginally reduces perceived exhaustion and muscle soreness when compared with placebo (105965). Another meta-analysis including some of the same clinical studies shows that taking L-citrulline malate before exercise modestly increases performance on resistance exercises by an average of 6% when compared with placebo (105968). Individual studies show mixed benefit and mostly use a single dose of L-citrulline malate 8 grams 1 hour before exercise; other studies used L-citrulline 3.3-6 grams mixed in watermelon juice or sucrose water or L-citrulline malate 12 grams given 1-2 hours before exercise (94966,94957,97395,105965). L-citrulline has also been evaluated for use with aerobic exercise. A small study in healthy young adults taking L-citrulline 9 grams in 3 divided doses over 24 hours or as a single dose of 3 grams 3 hours before a treadmill test does not improve performance, but might reduce time to exhaustion, when compared with placebo (16473). Another small clinical study in healthy adults shows that taking about 6.8 grams (100 mg/kg) of L-citrulline daily for 5 days prior to a cycling trial does not improve time to exhaustion, oxygen uptake, or lactate levels when compared with taking 3 grams of glucose as placebo (105964). However, two small clinical trials in healthy males show that taking L-citrulline 2.4-6 grams daily for 7 days prior to a cycling test improves peak power by 9%, total work by 7%, and cycling time trial performance by 1.5% when compared with placebo (94954,94965). Differences in methods of testing athletic performance, the form and dose of L-citrulline used, and/or the duration of supplementation may explain the mixed results. L-citrulline has also been evaluated in combination with L-arginine. Research in male soccer players shows that taking L-citrulline 1.2 grams and L-arginine 1.2 grams daily for 7 days increases total power output over a 10-minute cycling test and improves subjective perceptions of exertion when compared with placebo (100956).

POSSIBLY INEFFECTIVE

• Sarcopenia. Oral L-citrulline does not seem beneficial for muscle strength in older adults when added to structured exercise. Details: Two small clinical studies in older adults show that taking L-citrulline in conjunction with structured exercise does not improve measures of strength, endurance, speed, or balance when compared with placebo and structured exercise (110146,110148). One study evaluated otherwise healthy adults aged 60-73 years taking L-citrulline 3 grams daily for 6 weeks (110146). The other study evaluated older adults with obesity and an average age of 68.5 years taking a specific L-citrulline product (Citrage) 10 grams daily for 12 weeks (110148).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Cardiovascular disease (CVD). Although there is interest in using oral L-citrulline for CVD, there is insufficient reliable information about the clinical effects of L-citrulline for this condition.
• Dementia. Although there is interest in using oral L-citrulline for dementia, there is insufficient reliable information about the clinical effects of L-citrulline for this condition.
• Diabetes. It is unclear if oral L-citrulline is beneficial in patients with diabetes. Details: A small clinical study in adults with diabetes who are taking metformin and sulfonylureas shows that adding L-citrulline (Bulk Supplements Co., Ltd.) 3 grams daily before breakfast for 8 weeks reduces average fasting blood glucose levels by 22 mg/dL and glycated hemoglobin by 0.7%, but does not affect lipid levels, when compared with taking a microcrystalline cellulose placebo (105963).
• Erectile dysfunction (ED). It is unclear if oral L-citrulline is beneficial in patients with ED. Details: A small non-randomized crossover study in adults with mild ED shows that taking L-citrulline 1.5 grams daily for one month improves erection hardness from "mild dysfunction" to "normal function" in 50% of patients, compared with only 8% of patients taking placebo (94956). L-citrulline has also been evaluated in combination with other ingredients. A clinical study in middle-aged males with ED shows that taking a specific combination product (Revactin, MD Concepts LLC) containing L-citrulline, muira puama, ginger root, and guarana twice daily for 3 months improves scores related to erectile function and intercourse satisfaction, but does not improve sexual desire or orgasmic function scores, when compared to baseline (103224). The validity of this study is limited by the lack of a placebo control, the use of per-protocol analysis, and a high dropout rate. In fact, 44% of patients withdrew in order to resume use of phosphodiesterase type 5 (PDE5) inhibitors. Another small clinical study in adults with ED living in Japan and using PDE5 inhibitors as needed shows that taking an adjunct 50 mL drink containing L-citrulline 800 mg, a specific fenugreek extract (Testofen) 600 mg, resveratrol 300 mg, and caffeine 40 mg daily for 14 days modestly improves erectile function and satisfaction with intercourse and orgasm when compared with a placebo drink (105966). The validity of this finding may be confounded by the "as needed" use of PDE5 inhibitors, which was not reported throughout the study. Further, in both combination studies, it is unclear if these effects are due to L-citrulline, other supplement ingredients, or the combination.
• Heart failure. Small clinical studies suggest that oral L-citrulline might be beneficial in patients with heart failure. Details: A very small clinical study in patients with heart failure with preserved ejection fraction (HFpEF) shows that taking L-citrulline malate 3 grams daily for 2 months decreases systolic pulmonary arterial pressure by 16% and improves the right ventricular ejection fraction after a stress test by 27% when compared to baseline (94962). The validity of this finding is limited by the lack of a control group. Another small open-label clinical study in patients with heart failure with reduced ejection fraction (HFrEF) shows that taking L-citrulline 3 grams daily for 4 months increases left ventricular ejection fraction by about 20% at rest and 13% during the stress test, and increases the right ventricular ejection fraction by about 15%, both at rest and with the stress test, when compared with no supplementation. This improved the heart failure functional class in 35% of patients (94955).
• Hypertension. It is unclear if oral L-citrulline is beneficial for lowering blood pressure. Details: A small clinical trial in adults with prehypertension shows that taking L-citrulline 2 grams with grape and cranberry polyphenols 548 mg daily for 6 weeks does not reduce mean ambulatory blood pressure when compared with a cellulose placebo (105969). A small crossover study in postmenopausal females with hypertension shows that taking L-citrulline 6 grams as a single dose does not improve systolic or diastolic blood pressure at rest or during 5 minutes of plantar flexion exercise when compared with placebo (110147). The effects of using L-citrulline regularly or in other patients with diagnosed hypertension is unclear.
• Lysinuric protein intolerance. Although there is interest in using oral L-citrulline for lysinuric protein intolerance, there is insufficient reliable information about the clinical effects of L-citrulline for this condition.
• Muscle strength. It is unclear if oral L-citrulline can improve muscle strength when used in conjunction with resistance training. Details: A clinical study in healthy resistance-trained adults shows that taking L-citrulline malate 2 grams daily for 8 weeks in conjunction with resistance training does not further increase lean mass or muscle strength, measured by leg and bench presses, when compared with a cellulose placebo and resistance training (97394).
• Muscular dystrophy. It is unclear if oral L-citrulline is beneficial in patients with Duchenne muscular dystrophy. Details: A small clinical study in adults with Becker muscular dystrophy, a milder form of Duchenne muscular dystrophy (DMD), shows that taking L-citrulline 5 grams with or without metformin 500 mg three times daily for 6 weeks improves 6-minute walking distance and decreases markers of muscle necrosis when compared to baseline (100975). A small clinical study in males aged 6.5-10 years with DMD shows that taking L-citrulline 2.5 grams with metformin 250 mg three times daily for 26 weeks does not appear to slow decline in motor function when compared with placebo. However, this combination seems to slow decline in children with more stable disease, defined as those who can walk at least 350 meters in 6 minutes (100976). The reasons for these disparate results are unclear, but they may be due to the different patient populations, disease severities, doses, and durations of therapy being studied.
• Postoperative pulmonary hypertension. It is unclear if oral citrulline prevents postoperative hypertension in children undergoing heart surgery. Details: A small clinical study in children 6 years of age and younger undergoing congenital heart surgery shows that higher blood levels of L-citrulline might protect against the incidence of postoperative hypertension. L-citrulline blood levels of at least 37 micromol/L immediately after surgery, and at 12, 24, and 36 hours postoperatively, protects against its development. However, supplementation with 1.9 grams/m2 during induction of anesthesia is not necessarily protective (16467).
• Post-polio syndrome. It is unclear if oral L-citrulline is beneficial for patients with this condition. Details: A small clinical study in adults with post-polio syndrome shows that taking L-citrulline 5 grams three times daily for 24 weeks does not improve 6-minute walking distance, motor function scores, muscle strength, or quality of life when compared with placebo (110149).
• Pulmonary hypertension. It is unclear if oral L-citrulline is beneficial in patients with pulmonary hypertension. Details: A very small clinical study in patients with idiopathic arterial pulmonary hypertension or pulmonary hypertension due to Eisenmenger syndrome shows that taking L-citrulline malate 1 gram three times daily for 2 weeks increases 6-minute walking distance by 44 meters and reduces mean pulmonary arterial pressure by 5% when compared with baseline (94963). The validity of these findings is limited by the small study size and the lack of a comparator group.
• Reye syndrome. Although there is interest in using oral L-citrulline for Reye syndrome, there is insufficient reliable information about the clinical effects of L-citrulline for this condition.
• Sickle cell disease. It is unclear if oral L-citrulline is beneficial in patients with sickle cell disease. Details: A small clinical study in children ages 10-18 years shows that taking L-citrulline 90-130 mg/kg daily in 2 divided doses for up to 9 months might reduce neutrophilia and other symptoms when compared with baseline (16463). The validity of these findings is limited by the small study size and the lack of a comparator group. More evidence is needed to rate L-citrulline for these uses.

(Read more about L-CITRULLINE)

LIKELY EFFECTIVE

• Dyslipidemia. Niacin prescription products, in doses of 500 mg or greater, are FDA-approved for primary hyperlipidemia and mixed dyslipidemia. Niacin dietary supplements are generally available in lower doses and have not been shown to improve lipid levels. Details: Prescription niacin is not routinely recommended as second-line therapy for patients who primarily need to decrease low-density lipoprotein (LDL) cholesterol. This is due to results from clinical trials showing no effect on cardiovascular related events or mortality (93346,93354,96208,96211,97308,97477,97336). However, niacin might be considered for patients with mixed hyperlipidemia or patients who need to increase high-density lipoprotein (HDL) cholesterol and lower triglycerides. Niacin might also be effective for isolated hypoalphalipoproteinemia (4817). The most pronounced increases in HDL and decreases in triglycerides occur at 1-1.5 grams daily, and the greatest LDL reduction occurs at 2-3 grams daily. Niacin reduces LDL cholesterol by up to 25%, compared with up to a 55% reduction with statins. High-dose niacin can also decrease triglycerides by 20% to 50%, increase HDL by 13% to 35%, decrease apolipoprotein B levels by 2% to 20%, and decrease lipoprotein(a) levels by 23% (4818,4886,4887,4888,4889,4890,12033,25567,93347,96213). The effects of higher dose extended-release niacin on LDL cholesterol and triglycerides appear to be greater in females than males (25565). Experts recommend maximizing statins first because they have the best evidence for improving cardiovascular outcomes (97477,97336,97337). However, if patients cannot reach their LDL goal with a statin alone or if they cannot tolerate a statin, niacin might be combined with other cholesterol-lowering drugs when diet and single-drug therapy are not adequately effective (8545,25566,93351,94191,97337). Adding low-dose niacin, 50 mg daily, to statin therapy has no additional benefit on lipid levels (8546). Population research in adults without dyslipidemia has also found that higher dietary intake of niacin for 3-10 years is associated with a 29% lower risk of developing dyslipidemia when compared with low dietary niacin intake (110493).
• Pellagra. Oral niacin is FDA-approved for the prevention and treatment of pellagra. Details: Population research has found that low consumption of niacin is associated with an increased risk of developing pellagra (25903). Taking niacin 500-1000 mg daily can resolve symptoms of pellagra within a week of treatment initiation (25904). However, niacinamide is sometimes preferred for this indication because it lacks the vasodilating effects of niacin (15,6243).

POSSIBLY EFFECTIVE

• HIV/AIDS-related dyslipidemia. Oral niacin seems to improve lipid levels in patients with dyslipidemia due to HIV/AIDs. Details: Small clinical trials in HIV patients with dyslipidemia associated with antiretroviral therapy shows that taking extended-release niacin (Niaspan, Abbott Laboratories) titrated up to 2 grams daily for 14-48 weeks improves total cholesterol, high-density lipoprotein (HDL) cholesterol, and triglyceride levels when compared to baseline (25570,25902). Other preliminary clinical research in this population shows that taking extended-release niacin (Niaspan, Abbott Laboratories) titrated to 2 grams daily for up to 2 years improves HDL cholesterol levels, but not total cholesterol or triglyceride levels, when compared with no treatment (25569).
• Metabolic syndrome. Oral niacin seems to improve lipid levels in patients with metabolic syndrome. Details: Clinical research shows that taking niacin (Niaspan, Abbott Laboratories) 2 grams daily orally for 16 weeks reduces triglyceride levels by 39 mg/dL and increases high-density lipoprotein (HDL) cholesterol by 5 mg/dL when compared to baseline in patients with metabolic syndrome. These improvements are significant when compared with placebo and are further increased when niacin is taken along with prescription omega-3 ethyl esters (Lovaza, GlaxoSmithKline Pharmaceuticals) 4 grams daily orally (93353). However, niacin does not seem to improve postprandial glucose levels in patients with metabolic syndrome (97333).

INEFFECTIVE

• Cardiovascular disease (CVD). Oral niacin does not seem to reduce cardiovascular-related events in patients with or without CVD. Details: Overall, niacin is not recommended for primary or secondary prevention of CVD. Most clinical trials and meta-analyses conducted prior to 2011 showed a reduction in cardiovascular-related events, cardiovascular-related mortality, and all-cause mortality in patients taking niacin alone or in combination with a statin or clofibrate for primary or secondary prevention of CVD (4847,7388,25095,25911,25912,93349). However, recent meta-analyses of these studies and additional moderate-to-high quality research conducted in over 39,000 patients show no effect of niacin on cardiovascular-related events, cardiovascular-related mortality, or overall mortality (93346,93354,96208,96211,97308). Additionally, one meta-analysis shows that patients taking niacin are twice as likely to report side effects when compared with placebo (96211).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Alzheimer disease. It is unclear if oral niacin is beneficial for reducing Alzheimer disease risk. Details: Observational research has found that consuming higher amounts of niacin (17-45 mg daily) from food and supplements is associated with a slower cognitive decline and a lower risk of developing Alzheimer disease when compared with people who consume less niacin (14 mg daily) (12077). It is not known if the risk of Alzheimer disease is reduced by taking a stand-alone niacin supplement.
• Atherosclerosis. It is unclear if oral niacin prevents atherosclerosis progression. Details: Preliminary clinical studies show that taking niacin orally, in combination with colestipol for up to 2 years, might modestly reduce progression of atherosclerosis as measured by coronary lesions and carotid arterial intima-media thickness in high-risk males with existing coronary atherosclerosis (25906,25909,25910). However, niacin does not seem to be better than statins. One clinical study in adults with atherosclerosis and peripheral arterial disease shows that taking extended-release niacin 1500 mg, simvastatin 40 mg, and ezetimibe 10 mg daily for 2 years does not reduce atherosclerosis of the superficial femoral artery when compared with simvastatin alone (96208). Niacin has also not been shown to prevent cardiovascular events or mortality (93346,93354,96208,96211,97308).
• Athletic performance. It is unclear if oral niacin improves athletic performance. Details: Preliminary clinical research in untrained adult males shows that taking niacin 1000 mg orally once before a cycling test does not improve power, respiratory exchange ratio, or time to exhaustion when compared with placebo. In addition, these measures were significantly worse when compared with taking caffeine 5 mg/kg orally as a single dose (107942). Clinical research in untrained males also shows that taking a supplement containing niacin 40 mg, caffeine 400 mg, capsicum extract 66.7 mg, and black pepper extract 10 mg prior to exercising does not improve strength, time to exhaustion, or maximal oxygen consumption when compared with placebo (37873).
• Attention deficit-hyperactivity disorder (ADHD). Although there is interest in using oral niacin for ADHD, there is insufficient reliable information about the clinical effects of niacin for this condition.
• Cancer. It is unclear if dietary niacin is beneficial for cancer. Details: Population research in adults with cancer has found that high dietary niacin intake is associated with 49% and 27% lower risk of cancer-related mortality and all-cause mortality when compared with low dietary niacin intake. The same study also found that taking niacin supplements is associated with a lower risk of cancer-related mortality, but not all-cause mortality when compared with not taking niacin supplements (110496).
• Cataracts. It is unclear if oral niacin is beneficial for preventing cataracts. Details: Population research has found that high dietary intake of niacin is associated with a reduced risk of nuclear cataracts (6378). However, there is no reliable evidence that niacin supplements reduce the risk of cataracts.
• Cholera. It is unclear if oral niacin is beneficial for cholera. Details: One small clinical study in adults with severe cholera shows that taking 1-2 grams niacin orally reduces fluid loss in the stool by 31% to 47% in the first 16 hours when compared with control. The 2 gram dose seemed to result in a greater reduction in fluid loss than the 1 gram dose (4868).
• Erectile dysfunction (ED). It is unclear if oral niacin is beneficial in patients with ED and dyslipidemia. Details: Clinical research in patients with erectile dysfunction and dyslipidemia shows that taking extended-release niacin (Niaspan, Abbott Laboratories) titrated to 1.5 grams nightly for a total of 12 weeks significantly improves penetration frequency and the maintenance of an erection after penetration when compared to baseline (25913). The validity of this finding is limited by the lack of a comparator group.
• Glaucoma. It is unclear if oral niacin is beneficial for preventing or treating glaucoma. Details: Population research has found that higher dietary intake of niacin is associated with a lower odds of having glaucoma. However, this association was not consistently present when adjusting for confounders. The effects of niacin supplementation on glaucoma have not been evaluated (107942).
• Hyperphosphatemia. It is unclear if oral niacin is beneficial for preventing high levels of phosphorus in the blood. Details: Preliminary clinical research in patients on maintenance dialysis who are no longer using phosphate binders shows that taking niacin 375-750 mg daily for 8 weeks reduces serum phosphorus levels by 2.1 mg/dL, increases calcium levels by 0.4 mg/dL, and decreases serum alkaline phosphatase when compared with baseline (25914). However, clinical research in hemodialysis patients with inadequate phosphate control despite using standard phosphate-binding therapy shows that taking niacin at the maximum tolerated dose, up to 1000 mg daily, for 12 weeks, does not decrease serum phosphate levels when compared with placebo (93341). It is possible that this latter study was too small to observe between-group differences in changes in serum phosphate levels.
• Hypertension. It is unclear if dietary niacin is beneficial for preventing hypertension. Details: Observational research in Chinese adults found a J-shaped association between dietary niacin intake and development of hypertension, with the lowest risk occurring in those with a daily dietary niacin intake of 14.3-16.7 mg (104934).
• Meniere disease. Although there is interest in using oral niacin for Meniere disease, there is insufficient reliable information about the clinical effects of niacin for this condition.
• Migraine headache. It is unclear if dietary niacin is beneficial for preventing migraine headaches. Details: Population research in adults has found that high dietary intake of niacin is associated with a 28% lower likelihood of having migraine headaches when compared with low dietary intake of niacin (110495). However, the effect of niacin supplementation on migraines has not been studied.
• Motion sickness. Although there is interest in using oral niacin for motion sickness, there is insufficient reliable information about the clinical effects of niacin for this purpose.
• Parkinson disease. It is unclear if oral niacin is beneficial for improving Parkinson disease symptoms. Details: Low-quality clinical research in adults with Parkinson disease shows that taking slow-release niacin 250 mg orally daily for 12 months improves Parkinson disease motor scores and fatigue scores by 17% and 26%, respectively, when compared with baseline (107944). However, higher quality clinical research shows that taking niacin 250 mg orally daily for 6 months does not improve Parkinson disease motor scores when compared with placebo (107943).
• Retinal vein occlusion. It is unclear if oral niacin is beneficial for improving retinal vein occlusion symptoms. Details: A small case series in patients with chronic retinal vein occlusion shows that taking niacin titrated to 500 mg three times daily for 1 year is associated with reduced central macular thickness and improved visual acuity in over 50% of patients when compared with a control group. The addition of prednisolone eye drops does not alter the outcomes of those taking niacin (96212). The validity of this finding is limited due to the retrospective nature of this study.
• Sickle cell disease. It is unclear if oral niacin is beneficial for improving lipid levels in patients with sickle cell disease. Details: A small clinical study in patients with sickle cell disease shows that taking extended-release niacin titrated to 1.5 grams daily for 12 weeks does not improve vascular function or increase high-density lipoprotein (HDL) or apolipoprotein A-I cholesterol levels when compared with placebo (96209).
• Schizophrenia. Although there is interest in using oral niacin for schizophrenia, there is insufficient reliable information about the clinical effects of niacin for this condition.
• Vertigo. Although there is interest in using oral niacin for vertigo, there is insufficient reliable information about the clinical effects of niacin for this condition. More evidence is needed to rate niacin for these uses.

(Read more about NIACIN)

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Athletic performance. Although there has been interest in using oral rauwolscine for improving athletic performance, there is insufficient reliable information about the clinical effects of rauwolscine for this use.
• Sexual arousal. Although there has been interest in using oral rauwolscine for sexual arousal, there is insufficient reliable information about the clinical effects of rauwolscine for this condition.
• Obesity. Although there has been interest in using oral rauwolscine for obesity and weight loss, there is insufficient reliable information about the clinical effects of rauwolscine for this condition. More evidence is needed to rate rauwolscine for these uses.

(Read more about RAUWOLSCINE)

POSSIBLY EFFECTIVE

• Congestive heart failure (CHF). Oral taurine may improve left ventricular function, heart failure-related symptoms, and exercise capacity in patients with CHF. Details: Taking taurine 2-6 grams in two or three divided doses daily for 6-8 weeks seems to improve left ventricular function (5248,5271,8221) and symptoms of heart failure (5271,5306,8221) when compared with placebo or coenzyme Q10 in patients with New York Heart Association (NYHA) functional class II to IV. Also, taking taurine 500 mg three times daily for 2 weeks seems to improve exercise capacity when compared with placebo in patients with heart failure (77176). Some patients with severe heart failure rapidly improve from NYHA class IV to II after 4-8 weeks of treatment. Improvement seems to continue for as long as taurine treatment is continued, up to one year (5306,8217,8218,8221).
• Hepatitis. Oral taurine may improve liver function in patients with acute or chronic hepatitis. Details: Several small clinical trials show that taking taurine 1.5-4 grams daily for up to 3 months improves liver function in patients with acute and chronic hepatitis when compared with placebo (10454,77114,77147).

POSSIBLY INEFFECTIVE

• Obesity. Oral taurine does not appear to improve body weight in adults who are obese or overweight. Details: A meta-analysis of 12 small clinical trials shows that taurine supplementation does not reduce body weight or body mass index (BMI) when compared with placebo. The studies included in this analysis evaluated taurine doses of 0.5-6 grams daily for 15 days to 6 months. Most of the patient populations evaluated in the included studies had liver or metabolic disorders; three studies specifically evaluated overweight or obese adults (104166). Additionally, a more recent clinical trial in a small group of females with obesity shows that taking taurine 1 gram three times daily along with a calorie-restricted diet for 8 weeks does not reduce body weight, BMI, or waist circumference when compared with calorie restriction alone (104167).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Academic performance. It is unclear if oral taurine is beneficial to improve academic performance. Details: A very small clinical study in college entrance examinees over age 19 shows that taking a jelly containing taurine 3 grams daily for 14 days does not improve academic achievement when compared with baseline or placebo (110579). Due to its small size, this study may have been inadequately powered to detect a difference between groups.
• Age-related macular degeneration (AMD). Although there has been interest in using oral taurine for AMD, there is insufficient reliable information about the clinical effects of taurine for this purpose.
• Athletic performance. Research on the use of taurine for improving endurance or power output is limited and conflicting; however, it may improve performance by a small amount in some athletes. Details: Several clinical studies in trained and untrained athletes show that taking taurine 1-6 grams as a single dose before endurance exercise, or 3 grams daily for 8 weeks after endurance exercise, does not improve endurance or aerobic capacity when compared with placebo (77159,77203,95613,98334). However, a meta-analysis of seven small clinical trials shows that taking taurine 1-6 grams daily for up to 2 weeks slightly improves endurance when compared with control. Also, preliminary studies in male cyclists and recreationally active males show that taking taurine 50 mg/kg 1.5-2 hours prior to a cycling test increases the time to exhaustion when compared with placebo (101475,103211). The reasons for these discrepancies are unclear; the meta-analysis did not identify a dose or duration-related benefit. One small clinical trial shows that taking taurine 40 mg/kg improves muscle power in caffeine-deprived athletes who regularly use caffeine, but actually seems to worsen muscle power in athletes who do not regularly use caffeine (98335). Overall, it is not clear which population is most likely to benefit from taurine use (98337,98338). Study results are mixed when taurine has been evaluated in combination with other ingredients. One small study shows that taking a specific product containing taurine and caffeine (AdvoCare Spark) does not improve sprint performance in college athletes when compared with placebo (77195). However, other small studies of cyclists and boxers suggest that taking taurine in combination with a variety of other ingredients including B vitamins, caffeine, and glucuronolactone (Red Bull Energy Drink) or ginseng, kudzu, and soybean, may improve measures such as endurance, power, balance, or agility (37815,57945,110577). It is unclear if the benefits seen in these studies are due to taurine, other ingredients, or the combinations.
• Attention deficit-hyperactivity disorder (ADHD). Although there has been interest in using oral taurine for ADHD, there is insufficient reliable information about the clinical effects of taurine for this purpose.
• Autism spectrum disorder. Although there has been interest in using oral taurine for autism spectrum disorder, there is insufficient reliable information about the clinical effects of taurine for this purpose.
• Chemotherapy-induced nausea and vomiting (CINV). It is unclear if oral taurine is beneficial in patients with CINV. Details: One small clinical trial in patients with acute lymphoblastic leukemia receiving 6 months of chemotherapy shows that taking taurine (pure powder, Aviforme) 1000 mg twice daily, starting 6 hours after receiving chemotherapeutic agents, significantly improves CINV in 87.5% of patients. Other symptoms, such as reduced appetite and smell and taste impairment, are also improved in some patients (91512).
• Chemotherapy-induced nephrotoxicity. It is unclear if oral taurine is beneficial for preventing or treating chemotherapy-induced nephrotoxicity. Details: One small clinical trial in patients with acute lymphoblastic leukemia receiving 6 months of chemotherapy shows that taking taurine (pure powder, Aviforme) 1000 mg twice daily reduces plasma creatinine, urea, bilirubin, and liver enzymes after 4 months when compared with placebo. This suggests a protective effect against chemotherapy-induced nephrotoxicity and hepatotoxicity. A reduction in overall fatigue is also observed (95616).
• Cirrhosis. It is unclear if oral taurine is beneficial in patients with cirrhosis. Details: One small, uncontrolled clinical study in patients with cirrhosis shows that taking taurine 1 gram three times daily for 4 weeks reduces the severity and frequency of muscle cramps when compared to baseline (104165). Another small clinical trial in patients with cirrhosis shows that taking taurine 6 grams daily for 4 weeks reduces portal hypertension by 12%, compared with a 2% increase in the placebo group (98336). However, it is unclear if this is associated with a reduced risk for complications such as variceal bleeding and ascites.
• Cognitive function. It is unclear if oral taurine is beneficial for improving cognitive function; however, taking an energy drink (Red Bull Energy Drink) containing taurine and other ingredients may modestly improve some measures of cognitive function. Details: Levels of taurine decrease with age, but supplementation does not seem to have neuroprotective effects or cognitive benefits in the elderly (101471,110574,110578). In one small crossover study, taurine alone did not reduce errors in sleep-deprived individuals when compared with placebo (38154). However, taurine taken as part of an energy drink formulation containing taurine, caffeine, glucuronolactone, and B vitamins (Red Bull Energy Drink) improves focused and sustained attention, wakefulness, verbal reasoning, driving ability and quality, and reaction speed when compared with placebo (9899,38117,77088,77202). Preliminary clinical research in young adults also shows that consuming the Red Bull Energy Drink might improve attention and verbal reasoning, but does not seem to improve memory, when compared with placebo (9899,77088).
• Cystic fibrosis. Oral taurine may reduce steatorrhea in children with cystic fibrosis, but it does not seem to improve other measures of nutritional status. Details: Some small clinical studies in children with cystic fibrosis show that taking taurine 30-40 mg/kg daily for 7 days to 6 months might be useful as adjunctive therapy to reduce steatorrhea when compared with baseline or placebo (10455,77227,77231). However, it does not seem to improve growth, lung function, muscle protein breakdown, or other symptoms of cystic fibrosis (77224,77228). Also, adding taurine 500-1500 mg daily to treatment with ursodeoxycholic acid for up to one year does not improve liver function tests, fat absorption, or nutritional status in patients with cystic fibrosis and associated liver disease when compared with ursodeoxycholic acid alone (77246,77256).
• Delirium. It is unclear if oral taurine prevents delirium in patients in the intensive care unit. Details: A large clinical study of hospitalized adults in Iran who underwent liver transplantation shows that taking a specific taurine powder product (100% Taurine Amino Acid, MyProtein) 2 grams daily for 30 days post-transplant reduces the risk of delirium by 73% when compared with placebo. These results also suggest that for every four patients treated with taurine over placebo, one additional case of delirium is prevented. Patients who took taurine also had less time on the ventilator and shorter intensive care and hospital stays (110575). However, it is unclear if these effects are due to taurine or other factors since ventilator time and intensive care length of stay are risk factors for delirium.
• Diabetes. It is unclear if oral taurine is beneficial in patients with diabetes. Details: Plasma levels of taurine are reported to be lower in patients with diabetes than in healthy controls (101473). However, clinical research evaluating taurine for glycemic control is mixed (77074,103212). One small clinical trial in patients with type 2 diabetes shows that taking taurine 1 gram three times daily for 8 weeks reduces blood glucose, insulin resistance, total cholesterol, and low-density lipoprotein (LDL) cholesterol when compared with placebo (103212). Although there was no improvement in glycated hemoglobin (HbA1c), the study was not long enough to detect a meaningful reduction in HbA1c. Other preliminary clinical research shows that taking taurine 1.5 grams twice daily for 4 months does not affect blood glucose, HbA1c, lipids, or insulin in patients with type 2 diabetes when compared with placebo (77074). The reasons for these discrepant findings are unclear; however, both studies were small and potentially inadequately powered to detect a difference in outcomes.
• Epilepsy. Although there has been interest in using oral taurine for epilepsy, there is insufficient reliable information about the clinical effects of taurine for this condition.
• Exercise-induced muscle soreness. Small clinical studies suggest that oral taurine may modestly improve exercise-induced muscle soreness. Details: One small clinical trial in healthy, untrained adults shows that taking taurine 2 grams in combination with branched chain amino acids (BCAAs) three times daily for 2 weeks reduces subjective muscle soreness by 37% when compared with placebo (77212). Another small clinical trial in young, untrained males shows that taking taurine (Taisho Pharmaceutical Co., LTD.) 2 grams three times daily after meals before exercise, and continuing for three days after exercise, reduces delayed onset muscle soreness (DOMS), but not creatine kinase levels, when compared with placebo (91513).
• Fatigue. It is unclear if oral taurine is beneficial for improving fatigue. Details: One small clinical trial shows that taurine seems to reduce fatigue when taken alone, but increases fatigue when taken in combination with caffeine (77202). However, an observational study in young adults has found that subjective scores for physical and mental fatigue do not seem to correlate with dietary taurine intake (101472). One small clinical trial shows that drinking 500 mL of an energy drink providing taurine 1 gram plus other ingredients including caffeine and B vitamins decreases measures of driving-related fatigue in a driving simulation when compared with placebo (91075).
• Helicobacter pylori. It is unclear if oral taurine can aid in the eradication of helicobacter pylori (H. pylori). Details: One clinical trial shows that taking taurine 500 mg twice daily in combination with conventional treatment for 6 weeks increases H. pylori eradication and shortens duodenal ulcer scarring time in patients with confirmed H. pylori infection when compared with conventional treatment alone (77145).
• Hyperlipidemia. It is unclear if oral taurine is beneficial for lowering lipid levels. Details: A meta-analysis of 12 small clinical trials in adults with various liver or metabolic disorders, but without a specific diagnosis of hyperlipidemia, shows that taurine supplementation reduces total cholesterol by 11 mg/dL and triglycerides by 13 mg/dL, but does not seem to improve low-density lipoprotein (LDL) cholesterol or high-density lipoprotein (HDL) cholesterol levels, when compared with placebo. The studies included in this analysis evaluated doses of 0.5-6 grams daily for 15 days to 6 months (104166). The benefits of taurine in adults with hyperlipidemia are unclear.
• Hypertension. Oral taurine may modestly reduce blood pressure in patients with hypertension; however, the long-term antihypertensive effects of taurine are unclear. Details: One clinical study in patients with elevated blood pressure or stage 1 hypertension shows that taking taurine 1.6 grams daily for 12 weeks reduces systolic blood pressure (SBP) by 5 mmHg and diastolic blood pressure (DBP) by 3 mmHg when compared with placebo. The benefit is seen after 8 weeks of continued supplementation (95614). A small clinical trial in patients with stage 2 hypertension (previously classified as borderline hypertension) shows that taking taurine 6 grams daily for 7 days reduces both SBP and DBP when compared to baseline (77229). The long-term effects of taurine on blood pressure are unclear. A meta-analysis of 12 small clinical trials in adults with various liver or metabolic disorders, but without a specific hypertension diagnosis, shows that taurine supplementation reduces SBP by 5 mmHg and DBP by 3 mmHg when compared with placebo. The studies included in this analysis evaluated doses of 0.5-6 grams daily for 15 days to 6 months (104166).
• Infant development. Higher maternal intake of taurine from the diet may be linked to increased newborn length and weight; however, feeding taurine-containing formula to newborns does not appear to improve infant development. Details: One observational study has found a positive correlation between maternal dietary taurine intake and newborn length. In pregnant patients with high taurine intake (>120 mg/day), neonatal birth weight and length were significantly higher when compared with groups with lower taurine intake (101474). However, clinical research shows that administering infant formula containing taurine 45 mg/L for up to 12 weeks does not affect weight, length, head circumference, or behavior in preterm and full-term infants when compared with formula without taurine (77119,77216,77218,77239,77260).
• Iron deficiency anemia. It is unclear if oral taurine is beneficial in patients with iron deficiency anemia. Details: One small clinical trial in females with iron deficiency anemia shows that taking taurine 1000 mg plus ferrous sulfate 325 mg daily for 20 weeks improves hemoglobin concentrations, red blood cell counts, and serum ferritin levels when compared with ferrous sulfate plus placebo (77070).
• Muscular dystrophy. It is unclear if oral taurine is beneficial in patients with muscular dystrophy. Details: One very small crossover trial in patients with muscular dystrophy shows that taking taurine 100-150 mg/kg for 6 months improves the ability to relax muscles after voluntary use when compared with placebo (77235).
• Physical performance. It is unclear if oral taurine improves physical performance in older adults. Details: A small study in elderly females living in a care facility shows that taking taurine powder 1.5 grams daily for 14 weeks in addition to standardized exercise training may modestly improve some measures of physical fitness (i.e. agility, endurance) when compared to baseline. These measures were not improved in patients who took taurine but did not participate in exercise training or who participated in exercise training but did not take taurine (110574). The validity of these findings is limited by lack of randomization, blinding, and statistical comparison between groups.
• Postoperative recovery. It is unclear if oral taurine is beneficial for improving postoperative recovery. Details: One small clinical trial in patients recovering from surgery after a hip fracture shows that taking taurine 6 grams daily for 7 days after surgery does not improve morbidity and mortality outcomes after 1 year when compared with placebo (95615).
• Psychosis. It is unclear if oral taurine is beneficial in patients with psychosis. Details: One small clinical trial in adults up to 25 years of age with first-episode psychosis shows that taking taurine 4 grams daily for 12 weeks in combination with prescribed antipsychotics reduces positive psychotic symptoms, but not negative or cognitive symptoms, when compared with placebo (95612).
• Sleep deprivation. Oral taurine has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: Preliminary clinical research shows that taking a combination product containing taurine, caffeine, glucuronolactone, and B vitamins (Red Bull Energy Drink) reduces lane drifting and sleepiness and improves driving quality and reaction time during a car-driving simulator exercise in sleep-deprived individuals when compared with placebo (38117,77066). Other preliminary clinical research in sleep-deprived surgical trainees shows that taking taurine 2 grams in addition to caffeine 150 mg improves reaction time during performance of simulated laparoscopic surgery when compared with placebo, although error-making is not reduced (38154).
• Tourette syndrome. Oral taurine may improve tic severity in children with Tourette syndrome who are taking tiapride at a dose of 300 mg or less. Taurine may not be effective in children taking higher doses of tiapride. Details: One clinical trial in children 6-16 years of age with Tourette syndrome or other tic disorders shows that taking taurine along with tiapride reduces the severity of tics when compared with tiapride alone. For every 6 children taking taurine, one additional child saw a 60% or greater reduction in tic severity as measured on the Yale Global Tic Severity Scale when compared with placebo. However, taurine did not improve tic severity in children taking tiapride at a dose greater than 300 mg daily (103210). Taurine was taken in age-dependent doses of 2.4 grams daily in those 6-8 years, 3.6 grams daily in those 9-13 years, and 4.8 grams daily in those 14-16 years.
• Traumatic brain injury (TBI). It is unclear if oral taurine is beneficial in patients with a TBI. Details: A small clinical study of adults in Iran receiving treatment in the intensive care unit (ICU) following TBI shows that adding a specific taurine powder product (Nutricost) 30 mg/kg/day up to 3 grams daily to enteral nutrition for 14 days may modestly improve disease severity scores, but does not reduce days on the ventilator, ICU length of stay, or mortality at 30 days when compared with usual enteral nutrition (110573). Due to its small size, this study may have been underpowered to detect differences between groups. More evidence is needed to rate taurine for these uses.

(Read more about TAURINE)

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Antidepressant-induced sexual dysfunction. It is unclear if oral yohimbine, a constituent of yohimbe, is beneficial for patients with antidepressant-induced sexual dysfunction. Details: Small clinical trials suggest that taking yohimbine, a constituent of yohimbe, improves sexual dysfunction associated with selective serotonin reuptake inhibitors (SSRIs) (3305,3306,3307,3311,3313,3970,3971,3972,3973). It is unclear if yohimbe bark is beneficial.
• Anxiety. There is limited evidence on the oral use of yohimbine, a constituent of yohimbe, for the management of various phobias. Details: A small clinical study in healthy adults with a fear of flying shows that taking yohimbine hydrochloride 10 mg as an adjunct to virtual reality exposure therapy (VRET) does not improve anxiety measures when compared with VRET alone (86819). However, another small clinical study in healthy adults with claustrophobia shows that taking yohimbine hydrochloride 10.8 mg prior to exposure-based treatment reduces peak fear after one week when compared with exposure-based treatment alone (86794). The effect of yohimbe bark has not been investigated in clinical research.
• Athletic performance. It is unclear if oral yohimbine, a constituent of yohimbe, is beneficial for athletic performance. Details: A small clinical study in professional soccer players shows that taking yohimbine, a constituent of yohimbe, 20 mg daily for 3 weeks does not improve exercise performance or build muscle mass when compared with placebo (86785). However, a small crossover study in physically active females undergoing an anaerobic exercise test shows that taking a single dose of oral yohimbine 2.5 mg 20 minutes prior to repeated sprints increases average power output, total work, and heart rate and decreases average fatigue index when compared with placebo. Additionally, taking yohimbine decreases lactic acid levels and increases epinephrine levels when compared with baseline or placebo (107849). Due to the single-dose nature of this study, the effects of continued administration of yohimbine on athletic performance are unclear. The effects of yohimbe bark have not been investigated in clinical research.
• Depression. It is unclear if oral yohimbine, a constituent of yohimbe, is beneficial in patients with depression. Details: A very small clinical study in patients with treatment-resistant major depressive disorder shows that taking yohimbine, a constituent of yohimbe, 30 mg daily for 10 days along with desipramine does not improve symptoms of depression when compared with desipramine alone (86834). Also, a small crossover trial in patients with major depressive disorder and/or a history of adverse childhood experiences shows that taking yohimbine 10 mg once does not alter approach-avoidance behaviors normally associated with depression when compared with placebo (111402). The effects of yohimbe bark have not been investigated in clinical research.
• Dry mouth. It is unclear if oral yohimbine, a constituent of yohimbe, is beneficial for dry mouth. Details: A very small clinical study shows that taking yohimbine, a constituent of yohimbe bark, 18 mg daily for 5 days improves symptoms of dry mouth in individuals treated with antidepressants when compared with placebo (86886). The effect of yohimbe bark has not been investigated in clinical research.
• Erectile dysfunction (ED). It is unclear if oral yohimbine, a constituent of yohimbe, is beneficial for ED. Details: The effects of yohimbe bark have not been investigated in clinical research. Most small clinical studies suggest that taking yohimbine, a constituent in yohimbe bark, seems to improve symptoms in adults with various types of ED, including organic, psychogenic, mixed, and others (3305,3307,3309,3311,3312,3313,10629,86827,86831,86878)(86882,86888,86896). A meta-analysis in patients with ED shows that taking 5-100 mg of oral yohimbine for 2-10 weeks increases the probability of erectile function improvement when compared with placebo. Also, the use of yohimbine in combination with either L-arginine or trazodone, but not as monotherapy, improves sexual function when compared with placebo (107848). These findings are limited by the high heterogeneity of the included studies. Due to insufficient data, guidelines from the American Urological Association do not recommend yohimbine as a treatment option for ED (86881).
• Fatigue. Although there is interest in using oral yohimbe for fatigue, there is insufficient reliable information about the clinical effects of yohimbe for this purpose.
• Obesity. Although there is interest in using oral yohimbe for obesity, there is insufficient reliable information about the clinical effects of yohimbe for this condition.
• Orthostatic hypotension. It is unclear if oral yohimbine, a constituent of yohimbe, is beneficial in patients with orthostatic hypotension. Details: Some preliminary clinical research shows that taking a single dose of yohimbine 5.4 mg increases systolic blood pressure and standing diastolic blood pressure in patients with orthostatic hypotension when compared with placebo or pyridostigmine (86811,86890). However, other preliminary clinical research shows that taking yohimbine does not improve blood pressure in patients with orthostatic hypotension due to autonomic failure when compared with placebo (86821). The effect of yohimbe bark has not been investigated in clinical research. More evidence is needed to rate yohimbe for these uses.

(Read more about YOHIMBE)

POSSIBLY SAFE ...when used orally and appropriately. Alpha-GPC has been used with apparent safety at doses of 400 mg three times daily (1200 mg/day) for up to 6 months (12102,12176). ...when used intramuscularly and appropriately. Alpha-GPC has been administered intramuscularly with apparent safety at doses of 1000-1200 mg/day for 28 to 90 days (12100,12102).

PREGNANCY AND LACTATION:
Insufficient reliable information available; avoid using.

(Read more about ALPHA-GPC)

POSSIBLY SAFE ...when used orally and appropriately, short-term. Oral beta-alanine, including a specific commercial product (CarnoSyn, Natural Alternatives International), has been used with apparent safety in doses up to 6.4 grams daily for 12 weeks in younger adults (14611,16025,16439,16441,18227,94357,97972,101028,101029,104144,106717), and up to 3.2 grams daily for 12 weeks in adults aged 55 years and older (16442,97955,97961,97965).

PREGNANCY AND LACTATION:
Insufficient reliable information available; avoid using in medicinal amounts.

(Read more about BETA-ALANINE)

LIKELY SAFE ...when the fruit (nut) is consumed in amounts normally found in food.

POSSIBLY UNSAFE ...when the bark is used orally or topically, due to its juglone content (2). When applied topically, juglone-containing bark can cause skin irritation. When used orally on a daily basis, the juglone-containing bark of a related species (English walnut) is associated with increased risk of tongue cancer and lip leukoplakia (2,12). There is insufficient reliable information available about the safety of the leaf or hull when used orally as a medicine or when applied topically.

PREGNANCY AND LACTATION: LIKELY SAFE
when the fruit (nut) is consumed in amounts normally found in foods.

PREGNANCY AND LACTATION: POSSIBLY UNSAFE
when the bark is used orally or topically (12); avoid using. There is insufficient reliable information available about the safety of black walnut leaf or hull when used orally in medicinal amounts during pregnancy or lactation; avoid using.

(Read more about BLACK WALNUT)

LIKELY SAFE ...when used orally, parenterally, or rectally and appropriately. Caffeine has Generally Recognized As Safe (GRAS) status in the US (4912,98806). Caffeine is also an FDA-approved product and a component of several over-the-counter and prescription products (4912,11832). According to a review by Health Canada, and a subsequent large meta-analysis conducted in the US, doses of caffeine up to 400 mg daily are not associated with significant adverse cardiovascular, bone, behavioral, or reproductive effects in healthy adults (11733,98806). The US Dietary Guidelines Advisory Committee states that there is strong and consistent evidence that consumption of caffeine 400 mg daily is not associated with increased risk of major chronic diseases, such as cardiovascular disease or cancer, in healthy adults (98806). This amount of caffeine is similar to the amount of caffeine found in approximately 4 cups of coffee. Keep in mind that only the amount of ADDED caffeine must be stated on product labels. The amount of caffeine from caffeine-containing natural ingredients such as coffee or green tea does not need to be provided. This can make it difficult to determine the total amount of caffeine in a given product.

POSSIBLY UNSAFE ...when used orally, long-term or in high doses (91063). Chronic use, especially in large amounts, can produce tolerance, habituation, psychological dependence, and other adverse effects (3719). Acute use of high doses, typically above 400 mg daily, has been associated with significant adverse effects such as tachyarrhythmia and sleep disturbances (11832). Keep in mind that only the amount of ADDED caffeine must be stated on product labels. The amount of caffeine from caffeine-containing natural ingredients such as coffee or green tea does not need to be provided. This can make it difficult to determine the total amount of caffeine in a given product.

LIKELY UNSAFE ...when used orally in very high doses. The fatal acute oral dose of caffeine is estimated to be 10-14 grams (150-200 mg/kg). Serious toxicity can occur at lower doses depending on variables in caffeine sensitivity such as smoking, age, or prior caffeine use (11832,95700,97454,104573). Caffeine products sold to consumers in highly concentrated or pure formulations are considered to a serious health concern because these products have a risk of being used in very high doses. Concentrated liquid caffeine can contain about 2 grams of caffeine in a half cup. Powdered pure caffeine can contain about 3.2 grams of caffeine in one teaspoon. Powdered pure caffeine can be fatal in adults when used in doses of 2 tablespoons or less. As of 2018, these products are considered by the FDA to be unlawful when sold to consumers in bulk quantities (95700).

CHILDREN: POSSIBLY SAFE
when used orally or intravenously and appropriately in neonates under the guidance of a healthcare professional (6371,38340,38344,91084,91087,97452). ...when used orally in amounts commonly found in foods and beverages in children and adolescents (4912,11833,36555). Daily intake of caffeine in doses of less than 2.5 mg/kg daily are not associated with significant adverse effects in children and adolescents (11733,98806). Keep in mind that only the amount of ADDED caffeine must be stated on product labels. The amount of caffeine from caffeine-containing natural ingredients such as coffee or green tea does not need to be provided. This can make it difficult to determine the total amount of caffeine in a given product.

PREGNANCY: POSSIBLY SAFE
when used orally in amounts commonly found in foods. Intakes of caffeine should be monitored during pregnancy. Caffeine crosses the human placenta, but is not considered a teratogen (38048,38252,91032). Fetal blood and tissue levels are similar to maternal concentrations (4260). The use of caffeine during pregnancy is controversial; however, moderate consumption has not been associated with clinically important adverse fetal effects (2708,2709,2710,2711,9606,16014,16015,98806,108814). In some studies consuming amounts over 200 mg daily is associated with a significantly increased risk of miscarriage (16014,37960). This increased risk seems to occur in those with genotypes that confer a slow rate of caffeine metabolism (98806). According to a review by Health Canada, and a subsequent large meta-analysis conducted in the US, up to 300 mg daily can be consumed during pregnancy without an increased risk of spontaneous abortion, stillbirth, preterm birth, fetal growth retardation, or congenital malformations (11733,98806). However, observational research in a Norwegian cohort found that caffeine consumption is associated with a 16% increased odds of the baby being born small for gestational age when compared with no consumption (100369,103707). The same Norwegian cohort found that low to moderate caffeine consumption during pregnancy is not associated with changes in neurodevelopment in children up to 8 years of age (103699). Advise patients to keep caffeine consumption below 300 mg daily during pregnancy. This is similar to the amount of caffeine in about 3 cups of coffee or tea.

PREGNANCY: POSSIBLY UNSAFE
when used orally in amounts over 300 mg daily. Caffeine crosses the placenta, producing fetal blood concentrations similar to maternal levels (4260,98806). Consumption of caffeine in amounts over 300 mg daily is associated with a significantly increased risk of miscarriage in some studies (16014,98806). Advise patients to keep caffeine consumption below 300 mg daily during pregnancy. This is similar to the amount of caffeine in about 3 cups of coffee or tea. Additionally, high doses of caffeine throughout pregnancy have resulted in symptoms of caffeine withdrawal in newborn infants (9891). High doses of caffeine have also been associated with spontaneous abortion, premature delivery, and low birth weight (2709,2711,91033,91048,95949). In a cohort of mother/infant pairs with a median maternal plasma caffeine level of 168.5 ng/mL (range 29.5-650.5 ng/mL) during pregnancy, birth weights and lengths were lower in the 4th quartile of caffeine intake compared with the 1st. By age 7, heights and weights were lower by 1.5 cm and 1.1 kg respectively. In another cohort of mother/infant pairs with higher maternal pregnancy plasma caffeine levels, median 625.5 ng/mL (range 86.2 to 1994.7 ng/mL), heights at age 8 were 2.2 cm lower, but there was no difference in weights (109846).

LACTATION: POSSIBLY SAFE
when used orally in amounts commonly found in foods. Caffeine intake should be closely monitored while breast-feeding. During lactation, breast milk concentrations of caffeine are thought to be approximately 50% of serum concentrations and caffeine peaks in breastmilk approximately 1-2 hours after consumption (23590).

LACTATION: POSSIBLY UNSAFE
when used orally in large amounts. Caffeine is excreted slowly in infants and may accumulate. Caffeine can cause sleep disturbances, irritability, and increased bowel activity in breast-fed infants exposed to caffeine (2708,6026).

(Read more about CAFFEINE)

LIKELY SAFE ...when used orally and appropriately. Choline is safe in adults when taken in doses below the tolerable upper intake level (UL) of 3.5 grams daily (3094) ...when used intravenously and appropriately. Intravenous choline 1-4 grams daily for up to 24 weeks has been used with apparent safety (5173,5174).

POSSIBLY UNSAFE ...when used orally in doses above the tolerable upper intake level (UL) of 3. 5 grams daily. Higher doses can increase the risk of adverse effects (3094).

CHILDREN: LIKELY SAFE
when used orally and appropriately (3094). Choline is safe in children when taken in doses below the tolerable upper intake level (UL), which is 1 gram daily for children 1-8 years of age, 2 grams daily for children 9-13 years of age, and 3 grams daily for children 14-18 years of age (3094).

CHILDREN: POSSIBLY UNSAFE
when used orally in doses above the UL. High doses can increase the risk of adverse effects (3094).

PREGNANCY AND LACTATION: LIKELY SAFE
when used orally and appropriately. Choline is safe when taken in doses below the tolerable upper intake level (UL), which is 3 grams daily during pregnancy and lactation in those up to 18 years of age and 3.5 grams daily for those 19 years and older (3094,92114). There is insufficient reliable information available about the safety of choline used in higher doses during pregnancy and lactation.

(Read more about CHOLINE)

POSSIBLY SAFE ...when used orally and appropriately, short-term (12131). Citicoline 1000-2000 mg daily has been used with apparent safety for up to 12 weeks (12130,43248,98230,104828,109015,109016). Citicoline 2500 mg daily has also been used with apparent safety for up to 7 weeks (100988). ...when citicoline is used intravenously or intramuscularly under medical supervision (12131). Citicoline has been administered intravenously with apparent safety at a dose of 500 mg daily for 7 days, or 2000 mg daily for 3 days (43229,98444,104828). ...when used topically on the eye. Citicoline 2% eye drops have been used with apparent safety for up to 3 years alone or in combination with cyanocobalamin 0.05% (98229,104824,104825,104826,104827).

CHILDREN: POSSIBLY SAFE
when citicoline is used orally and appropriately. Citicoline has been used with apparent safety for up to 1 year at a dose of 250 mg daily in children under 5 years of age and 500 mg daily in children 5-13 years of age (98442). There is insufficient reliable information available about the safety of citicoline when used intravenously in children.

PREGNANCY AND LACTATION:
Insufficient reliable information available; avoid using.

(Read more about CITICOLINE)

LIKELY SAFE ...when used orally and appropriately. L-carnitine has been safely used in clinical trials lasting up to 12 months (1947,3620,3621,3623,3624,3625,3626,3627,3628,3629) (3630,3639,4949,8047,9790,12352,16104,16105,16106,16107) (16109,16110,23437,26496,26499,58150,58156,58161,58169,58182) (58189,58204,58207,58209,58213,58294,58523,58554,58556,58647) (58679,58715,58778,58793,58830,58831,58882,59023,59029,59043) (90624,90633,104177,111872,111876,111883,111884,111891,111898). ...when used parenterally as an FDA-approved prescription medicine. Avoid using D-carnitine and DL-carnitine. These forms of carnitine can act as competitive inhibitors of L-carnitine and may cause symptoms of L-carnitine deficiency (1946).

CHILDREN: POSSIBLY SAFE
when used orally or intravenously and appropriately. L-carnitine has been safely used orally in children for up to 6 months (1433,3622,58166,58502,58981,59188,111887,111900). It has also been safely used orally and intravenously in preterm infants (3633,3634,3635,3636,3637,58163,58190,58800,58902,59097)(59161).

PREGNANCY:
Insufficient reliable information available; avoid using.

LACTATION: POSSIBLY SAFE
when used orally. Supplemental doses of L-carnitine have been given to infants in breast milk and formula with no reported adverse effects. The effects of large doses used while nursing are unknown, but L-carnitine is secreted in the breast milk (3616).

(Read more about L-CARNITINE)

POSSIBLY SAFE ...when used orally and appropriately. In clinical trials, L-citrulline has been used with apparent safety for up to 2 months at doses of 1.5-6 grams daily (94954,94956,94961,94962,100974). Doses of up to 15 grams have also been used as single doses or within a 24 hour period (16470,16473).

CHILDREN: POSSIBLY SAFE
when used orally and appropriately. L-citrulline has been used with apparent safety in infants at a dose of 0.17 grams/kg daily (16472). It has also been used in children 6.5-10 years of age at a dose of 7.5 grams daily for 26 weeks (100976). ...when used intravenously and appropriately. An intravenous bolus dose of L-citrulline 150 mg/kg followed by 9 mg/kg/hour for 48 hours has been used safely in children under 6 years of age (16469).

PREGNANCY AND LACTATION:
Insufficient reliable information available; avoid using.

(Read more about L-CITRULLINE)

LIKELY SAFE ...when niacin is taken in food or as a supplement in amounts below the tolerable upper intake level (UL) of 30 mg daily for adults 18 years of age and 35 mg daily for adults 19 years and older (6243). ...when prescription products are used orally and appropriately in doses of up to 2 grams daily (12033). CHILDREN:

LIKELY SAFE ...when used orally in amounts that do not exceed the tolerable upper intake level (UL). The ULs of niacin for children are: 1-3 years of age, 10 mg daily; 4-8 years of age, 15 mg daily; 9-13 years of age, 20 mg daily; 14-18 years of age, 30 mg daily (6243).

PREGNANCY AND LACTATION: LIKELY SAFE
when used orally in amounts that do not exceed the tolerable upper intake level (UL). The UL of niacin during pregnancy and lactation is 30 mg daily for 14-18 years of age and 35 mg daily for 19 years and older (6243). There is insufficient reliable information available about the safety of larger oral doses of niacin during pregnancy or lactation; avoid using.

(Read more about NIACIN)

POSSIBLY UNSAFE ...when used orally. There is insufficient reliable information available about the safety of rauwolscine. However, it is structurally similar to yohimbine, which has been associated with serious adverse effects including cardiac arrhythmia, agitation, myocardial infarction, seizure, and others (17465).

PREGNANCY AND LACTATION:
Insufficient reliable information available; avoid using.

(Read more about RAUWOLSCINE)

LIKELY SAFE ...when used in amounts found in foods. Typical daily intakes for adults range from 40-400 mg (101471).

POSSIBLY SAFE ...when used orally and appropriately in medicinal amounts. Taurine 2-4 grams daily in two or three divided doses has been used safely in studies lasting up to 3 months (5248,5271,8217,8221,10454,77147,95612,98337,104165,104167). Higher doses of taurine 6 grams daily have been used safely in studies lasting up to 4 weeks (98336,98337). A risk assessment of orally administered taurine has identified an Observed Safe Level (OSL) of up to 3 grams daily for healthy adults (31996).

CHILDREN: LIKELY SAFE
when used in amounts found in foods.

CHILDREN: POSSIBLY SAFE
when used orally and appropriately in medicinal amounts. Taurine 2.4-4.8 grams daily in three divided doses has been safely used in children 6-16 years of age for up to 12 weeks (103210).

PREGNANCY AND LACTATION: LIKELY SAFE
when used in amounts found in foods. There is insufficient reliable information available about the safety of taurine when used in medicinal amounts during pregnancy and lactation; avoid using.

(Read more about TAURINE)

POSSIBLY UNSAFE ...when used orally. Yohimbine, a constituent of yohimbe, has been associated with serious adverse effects including cardiac arrhythmia, agitation, myocardial infarction, seizure, and others (17465). Some research shows that yohimbine can be safely used under close medical supervision for up to 10 weeks (3305,3307,3311,3313). However, due to safety concerns, yohimbe should not be used without medical supervision.

PREGNANCY AND LACTATION: POSSIBLY UNSAFE
when used orally. Yohimbe might have uterine relaxant effects and also cause fetal toxicity (19).

(Read more about YOHIMBE)

SCOPOLAMINE (Transderm Scop) Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = B Theoretically, alpha-GPC might decrease the effects of scopolamine.  Details A small clinical study shows that alpha-GPC can partially counteract the attention and memory impairment effects caused by scopolamine given intramuscularly (12103). Whether alpha-GPC can decrease the beneficial anti-motion sickness effects of the scopolamine patch (Transderm Scop) is unclear.

(Read more about ALPHA-GPC)

(Read more about BETA-ALANINE)

(Read more about BLACK WALNUT)

ADENOSINE (Adenocard) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = B Theoretically, caffeine might decrease the vasodilatory effects of adenosine and interfere with its use prior to stress testing.  Details Some evidence shows that caffeine is a competitive inhibitor of adenosine and can reduce the vasodilatory effects of adenosine in humans (38172). However, other research shows that caffeine does not seem to affect supplemental adenosine because high interstitial levels of adenosine overcome the antagonistic effects of caffeine (11771). It is recommended that methylxanthines and methylxanthine-containing products be stopped 24 hours prior to pharmacological stress tests (11770). However, methylxanthines appear more likely to interfere with dipyridamole (Persantine) than adenosine-induced stress testing (11771).

ALCOHOL (Ethanol) Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, concomitant use might increase levels and adverse effects of caffeine.  Details Alcohol reduces caffeine metabolism. Concomitant use of alcohol can increase caffeine serum concentrations and the risk of caffeine adverse effects (6370).

ANTICOAGULANT/ANTIPLATELET DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, caffeine may increase the risk of bleeding if used with anticoagulant or antiplatelet drugs.  Details Caffeine is reported to have antiplatelet activity. Theoretically, it might increase the risk of bleeding when used concomitantly with these agents (8028,8029); however, this interaction has not been reported in humans.

ANTIDIABETES DRUGS Interaction Rating = Minor Be watchful with this combination. Severity = Moderate •  Occurrence = Unlikely •  Level of Evidence = B Theoretically, taking caffeine with antidiabetes drugs might interfere with blood glucose control.  Details Data are conflicting. Reports claim that caffeine might increase or decrease blood sugar (6024,8646).

CARBAMAZEPINE (Tegretol) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, caffeine might reduce the effects of carbamazepine and increase the risk for convulsions.  Details Animal research suggests that taking caffeine can lower the anticonvulsant effects of carbamazepine and can induce seizures when taken in doses above 400 mg/kg (23559,23561). Human research has shown that taking caffeine 300 mg in three divided doses along with carbamazepine 200 mg reduces the bioavailability of carbamazepine by 32% and prolongs the plasma half-life of carbamazepine 2-fold in healthy individuals (23562).

CIMETIDINE (Tagamet) Interaction Rating = Moderate Be cautious with this combination. Severity = Mild •  Occurrence = Likely •  Level of Evidence = B Theoretically, cimetidine might increase the levels and adverse effects of caffeine.  Details Cimetidine decreases the rate of caffeine clearance by 31% to 42% (11736).

CLOZAPINE (Clozaril) Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = B Caffeine might increase the levels and adverse effects of clozapine and acutely exacerbate psychotic symptoms.  Details Caffeine might increase the effects and toxicity of clozapine. Caffeine doses of 400-1000 mg per day inhibit clozapine metabolism (5051). Clozapine is metabolized by cytochrome P450 1A2 (CYP1A2). Although researchers speculate that caffeine might inhibit CYP1A2, there is no reliable evidence that caffeine affects CYP1A2. There is also speculation that genetic factors might make some patients more sensitive to an interaction between clozapine and caffeine (13741). In one case report, severe, life-threatening clozapine toxicity and multiorgan system failure occurred in a patient with schizophrenia stabilized on clozapine who consumed caffeine 600 mg daily (108817).

CONTRACEPTIVE DRUGS Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = B Theoretically, contraceptive drugs might increase the levels and adverse effects of caffeine.  Details Oral contraceptives decrease the rate of caffeine clearance by 40-65% (2714,11737).

CYTOCHROME P450 1A2 (CYP1A2) INHIBITORS Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, concomitant use might increase the levels and adverse effects of caffeine.  Details Caffeine is metabolized by CYP1A2. Theoretically, drugs that inhibit CYP1A2 may decrease the rate of caffeine clearance and increase caffeine levels (5051,11741).

DIPYRIDAMOLE (Persantine) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = B Theoretically, caffeine might decrease the vasodilatory effects of dipyridamole and interfere with its use prior to stress testing.  Details Caffeine inhibits dipyridamole-induced vasodilation (11770,11772). It is recommended that methylxanthines and methylxanthine-containing products be stopped 24 hours prior to pharmacological stress tests (11770). Methylxanthines appear more likely to interfere with dipyridamole (Persantine) than adenosine-induced stress testing (11771).

DISULFIRAM (Antabuse) Interaction Rating = Moderate Be cautious with this combination. Severity = Mild •  Occurrence = Probable •  Level of Evidence = B Theoretically, disulfiram use might increase the levels and adverse effects of caffeine.  Details Disulfiram decreases the rate of caffeine clearance (11840).

DIURETIC DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, using caffeine with diuretic drugs might increase the risk of hypokalemia.  Details Caffeine, especially in excessive amounts, can reduce potassium levels due to stimulation of the sodium-potassium pump (23579,37905,37953,38003,38034). Diuretics can also cause lower potassium levels.

EPHEDRINE Interaction Rating = Major Do not take this combination. Severity = High •  Occurrence = Probable •  Level of Evidence = D Theoretically, concomitant use might increase the risk for stimulant adverse effects.  Details Use of ephedrine with caffeine can increase the risk of stimulatory adverse effects. There is evidence that using ephedrine with caffeine might increase the risk of serious life-threatening or debilitating adverse effects such as hypertension, myocardial infarction, stroke, seizures, and death (1275,6486,10307).

ESTROGENS Interaction Rating = Moderate Be cautious with this combination. Severity = Mild •  Occurrence = Probable •  Level of Evidence = B Theoretically, estrogens might increase the levels and adverse effects of caffeine.  Details Estrogen inhibits caffeine metabolism (2714,23570).

ETHOSUXIMIDE (Zarontin) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, caffeine might reduce the effects of ethosuximide and increase the risk for convulsions.  Details Animal research suggests that caffeine 92.4 mg/kg can decrease the anticonvulsant activity of ethosuximide (23560). However, this effect has not been reported in humans.

FELBAMATE (Felbatol) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, caffeine might reduce the effects of felbamate and increase the risk for convulsions.  Details Animal research suggests that a high dose of caffeine 161.7 mg/kg can decreases the anticonvulsant activity of felbamate (23563). However, this effect has not been reported in humans.

FLUCONAZOLE (Diflucan) Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = B Theoretically, fluconazole might increase the levels and adverse effects of caffeine.  Details Fluconazole decreases caffeine clearance by approximately 25% (11022).

FLUTAMIDE (Eulexin) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = D Theoretically, caffeine might increase the levels and adverse effects of flutamide.  Details In vitro evidence suggests that caffeine can inhibit the metabolism of flutamide (23553). However, this effect has not been reported in humans.

FLUVOXAMINE (Luvox) Interaction Rating = Moderate Be cautious with this combination. Severity = Mild •  Occurrence = Probable •  Level of Evidence = D Theoretically, fluvoxamine might increase the levels and adverse effects of caffeine.  Details Fluvoxamine reduces caffeine metabolism (6370).

LITHIUM Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = D Theoretically, abrupt caffeine withdrawal might increase the levels and adverse effects of lithium.  Details Caffeine has diuretic activity. When abruptly discontinued, it might alter the clearance of lithium (609). There are two case reports of lithium tremor that worsened upon abrupt coffee withdrawal (610).

METFORMIN (Glucophage) Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, metformin might increase the levels and adverse effects of caffeine.  Details Animal research suggests that metformin can reduce caffeine metabolism (23571). However, this effect has not been reported in humans.

METHOXSALEN (Oxsoralen) Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = B Theoretically, methoxsalen might increase the levels and adverse effects of caffeine.  Details Methoxsalen reduces caffeine metabolism (23572).

MEXILETINE (Mexitil) Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = B Theoretically, mexiletine might increase the levels and adverse effects of caffeine.  Details Mexiletine reduces caffeine metabolism (1260,11741).

MONOAMINE OXIDASE INHIBITORS (MAOIs) Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, concomitant use might increase the risk of a hypertensive crisis.  Details Caffeine has been shown to inhibit monoamine oxidase (MAO) A and B in laboratory studies (37724,37877,37912,38108). Concomitant intake of large amounts of caffeine with MAOIs might precipitate a hypertensive crisis (15). In a case report, a patient that consumed 10-12 cups of caffeinated coffee and took the MAOI tranylcypromine presented with severe hypertension (91086). Hypertension was resolved after the patient switched to drinking decaffeinated coffee.

NICOTINE Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = B Theoretically, concomitant use might increase the risk of hypertension.  Details Concomitant use of caffeine and nicotine has been shown to have additive cardiovascular effects, including increased heart rate and blood pressure. Blood pressure was increased by 10.8/12.4 mmHg when the agents were used concomitantly (36549).

PENTOBARBITAL (Nembutal) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = B Theoretically, caffeine might decrease the effects of pentobarbital.  Details Caffeine might negate the hypnotic effects of pentobarbital (13742).

PHENOBARBITAL (Luminal) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, caffeine might reduce the effects of phenobarbital and increase the risk for convulsions.  Details Animal research suggests that caffeine can decrease the anticonvulsant activity of phenobarbital (23558,23559,23561). However, the exact mechanism of this interaction is unclear.

PHENOTHIAZINES Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, phenothiazines might increase the levels and adverse effects of caffeine.  Details Phenothiazines, including perazine, chlorpromazine, levomepromazine, and thioridazine, can reduce the metabolism of caffeine by inhibiting cytochrome P450 1A2 (CYP1A2) (23573,23574).

PHENYLPROPANOLAMINE Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = B Theoretically, phenylpropanolamine might increase the risk of hypertension, as well as the levels and adverse effects of caffeine.  Details Concomitant use of phenylpropanolamine and caffeine might cause an additive increase in blood pressure (11738). Phenylpropanolamine also seems to increase caffeine serum levels (13743).

PHENYTOIN (Dilantin) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, caffeine might reduce the effects of phenytoin and increase the risk for convulsions.  Details Animal research suggests that caffeine can decrease the anticonvulsant activity of phenytoin (23559,23561). The effect does not seem to be related to the seizure threshold-lowering effects of caffeine. However, the exact mechanism of this interaction is unclear.

PIOGLITAZONE (Actos) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, caffeine might increase the levels and clinical effects of pioglitazone.  Details Animal research suggests that caffeine can modestly increase the maximum concentration, area under the curve, and half-life of pioglitazone, and also reduce its clearance. This increased the antidiabetic effects of pioglitazone (108812). However, the exact mechanism of this interaction is unclear.

QUINOLONE ANTIBIOTICS Interaction Rating = Moderate Be cautious with this combination. Severity = Mild •  Occurrence = Probable •  Level of Evidence = B Theoretically, quinolone antibiotics might increase the levels and adverse effects of caffeine.  Details Quinolones (also called fluoroquinolones) can decrease caffeine clearance by inhibiting cytochrome P450 1A2 (CYP1A2) enzyme (606,607,608,23554,23555,23556).

RILUZOLE (Rilutek) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, concomitant use might increase the levels and adverse effects of both caffeine and riluzole.  Details Caffeine and riluzole are both metabolized by cytochrome P450 1A2 (CYP1A2), and concomitant use might reduce the metabolism of one or both agents (11739).

STIMULANT DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = C Theoretically, concomitant use might increase stimulant adverse effects.  Details Due to the central nervous system (CNS) stimulant effects of caffeine, concomitant use with stimulant drugs can increase the risk of adverse effects (11832).

TERBINAFINE (Lamisil) Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = B Theoretically, terbinafine might increase the levels and adverse effects of caffeine.  Details Terbinafine decreases the clearance of intravenous caffeine by 19% (11740).

THEOPHYLLINE Interaction Rating = Moderate Be cautious with this combination. Severity = Mild •  Occurrence = Probable •  Level of Evidence = C Theoretically, caffeine might increase the levels and adverse effects of theophylline.  Details Large amounts of caffeine might inhibit theophylline metabolism (11741).

TIAGABINE (Gabitril) Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, caffeine might increase the levels and adverse effects of tiagabine.  Details Animal research suggests that chronic caffeine administration can increase the serum concentrations of tiagabine. However, concomitant use does not seem to reduce the antiepileptic effects of tiagabine (23561).

TICLOPIDINE (Ticlid) Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, ticlopidine might increase the levels and adverse effects of caffeine.  Details In vitro evidence suggests that ticlopidine can inhibit caffeine metabolism (23557). However, this effect has not been reported in humans.

VALPROATE Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, caffeine might reduce the effects of valproate and increase the risk for convulsions.  Details Animal research suggests that caffeine can decrease the anticonvulsant activity of valproate (23558,23559,23561,37882). However, the exact mechanism of this interaction is unclear.

VERAPAMIL (Calan, others) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, verapamil might increase the levels and adverse effects of caffeine.  Details Verapamil increases plasma caffeine concentrations by 25% (11741).

(Read more about CAFFEINE)

ATROPINE Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, choline might decrease the effects of atropine in the brain.  Details Animal research shows that administering choline one hour before administering atropine can attenuate atropine-induced decreases in brain levels of acetylcholine (42240). Theoretically, concomitant use of choline and atropine may decrease the effects of atropine.

(Read more about CHOLINE)

(Read more about CITICOLINE)

ACENOCOUMAROL (Sintrom) Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, L-carnitine might increase the anticoagulant effects of acenocoumarol.  Details L-carnitine might enhance the anticoagulant effects of acenocoumarol, an oral anticoagulant similar to warfarin, but shorter-acting (9878,12165). There are at least two case reports of INR elevation with concomitant use. In one case, a 33-year-old male with a previously stable INR had an elevated INR of 4.65 after L-carnitine was started and continued for 10 weeks. INR normalized after discontinuation of the L-carnitine-containing product (12165).

THYROID HORMONE Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = B Theoretically, L-carnitine might decrease the effectiveness of thyroid hormone replacement.  Details L-carnitine appears to act as a peripheral thyroid hormone antagonist by inhibiting entry of thyroid hormone into the nucleus of cells (12761). Taking L-carnitine also seems to diminish some of the symptoms of hyperthyroidism (8047).

WARFARIN (Coumadin) Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, L-carnitine might increase the anticoagulant effects of warfarin.  Details L-carnitine might increase the anticoagulant effects of acenocoumarol, a shorter-acting oral anticoagulant similar to warfarin (9878,12165). There is not enough information to know whether this interaction occurs with L-carnitine and warfarin.

(Read more about L-CARNITINE)

ANTIHYPERTENSIVE DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = B Theoretically, concomitant use of L-citrulline with antihypertensive drugs might have additive effects and increase the chance of hypotension.  Details L-citrulline is converted to L-arginine, which can increase nitric oxide and cause vasodilation (7822,16460,16461). However, a meta-analysis of 5 small clinical studies suggests that taking L-citrulline 3-6 grams daily for 1-8 weeks does not lower blood pressure when compared with control (100974).

PHOSPHODIESTERASE-5 INHIBITORS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, concurrent use of phosphodiesterase-5 (PDE-5) inhibitors and L-citrulline might result in additive vasodilation.  Details L-citrulline is converted to L-arginine, which can increase nitric oxide and cause vasodilation (7822,16460,16461). Theoretically, taking L-arginine with PDE-5 inhibitors might have additive vasodilatory and hypotensive effects. However, in studies evaluating the combined use of L-arginine and sildenafil for erectile dysfunction, hypotension was not reported (105065).

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ALCOHOL (Ethanol) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = D Concomitant use of alcohol and niacin might increase the risk of flushing and hepatotoxicity.  Details Alcohol can exacerbate the flushing and pruritus associated with niacin (4458,11689). Large doses of niacin might also exacerbate liver dysfunction associated with chronic alcohol use. A case report describes delirium and lactic acidosis in a patient taking niacin 3 grams daily who ingested 1 liter of wine (14510). Advise patients to avoid large amounts of alcohol while taking niacin.

ALLOPURINOL (Zyloprim) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = C Theoretically, niacin might antagonize the therapeutic effects of uricosurics such as allopurinol.  Details Large doses of niacin can reduce urinary excretion of uric acid, potentially resulting in hyperuricemia (4860,4863,12033). Doses of uricosurics such as allopurinol might need to be increased to maintain control of gout in patients who start taking niacin (4458). People who have frequent attacks of gout despite uricosuric therapy should avoid niacin (4863).

ANTICOAGULANT/ANTIPLATELET DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, niacin may have additive effects when used with anticoagulant or antiplatelet drugs.  Details Several cases of clotting factor synthesis deficiency and coagulopathy have been reported in patients taking sustained-release niacin (25915). Also, thrombocytopenia has been reported in patients treated with niacin or niacin plus lovastatin (25916).

ANTIDIABETES DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = B Niacin can increase blood glucose levels and may diminish the effects of antidiabetes drugs.  Details Niacin impairs glucose tolerance in a dose-dependent manner, probably by causing or aggravating insulin resistance and increasing hepatic production of glucose (4860,4863,11692,11693). In diabetes patients, niacin 4.5 grams daily for 5 weeks can increase plasma glucose by an average of 16% and glycated hemoglobin (HbA1c) by 21% (4860). However, lower doses of 1.5 grams daily or less appear to have minimal effects on blood glucose (12033). In some patients, glucose levels increase when niacin is started, but then return to baseline when a stable dose is reached (12033,93344). Up to 35% of patients with diabetes may need adjustments in hypoglycemic therapy when niacin is added (4458,4860,4863,11689,12033).

ANTIHYPERTENSIVE DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = B Theoretically, niacin may increase the risk of hypotension when used with antihypertensive drugs.  Details The vasodilating effects of niacin can cause hypotension (4863,12033,93341). Furthermore, some clinical evidence suggests that a one-hour infusion of niacin can reduce systolic, diastolic, and mean blood pressure in hypertensive patients. This effect is not observed in normotensive patients (25917).

ASPIRIN Interaction Rating = Minor Be watchful with this combination. Severity = Insignificant •  Occurrence = Likely •  Level of Evidence = B Large doses of aspirin might alter the clearance of niacin.  Details Aspirin is often used with niacin to reduce niacin-induced flushing (4458,11689). Doses of 80-975 mg aspirin have been used, but 325 mg appears to be optimal (4458,4852,4853,11689). Aspirin also seems to reduce the clearance of niacin by competing for glycine conjugation. Taking aspirin 1 gram seems to reduce niacin clearance by 45% (14524). This is probably a dose-related effect and not clinically significant with the more common aspirin dose of 325 mg (11689,14524).

BILE ACID SEQUESTRANTS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Bile acid sequestrants can bind niacin and decrease absorption. Separate administration by 4-6 hours to avoid an interaction.  Details In vitro studies show that colestipol (Colestid) binds about 98% of available niacin and cholestyramine (Questran) binds 10% to 30% (14511).

GEMFIBROZIL (Lopid) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, concomitant use of niacin and gemfibrozil might increase the risk of myopathy in some patients.  Details A case of myopathy from concomitant use of niacin and gemfibrozil has been reported (25920). Niacin alone has also been associated with cases of myopathy (26100,26111). Using gemfibrozil with niacin might further increase the risk of developing myopathy.

HEPATOTOXIC DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, concomitant use of niacin and hepatotoxic drugs might increase the risk of hepatotoxicity.  Details Niacin has been associated with cases of liver toxicity, especially when used in pharmacologic doses (4863,11689,11691,25929,25930,25931). Sustained-release niacin preparations appear to be associated with a higher risk of hepatotoxicity than immediate-release niacin (11691,25930,25931,93342).

HMG-CoA REDUCTASE INHIBITORS ("Statins") Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, concomitant use of niacin and statins might increase the risk of myopathy and rhabdomyolysis in some patients.  Details Some case reports have raised concerns that niacin might increase the risk of myopathy and rhabdomyolysis when combined with statins (14508,25918). However, a significantly increased risk of myopathy has not been demonstrated in clinical trials, including those using an FDA-approved combination of lovastatin and niacin (Advicor) (7388,11689,12033,14509).

PROBENECID (Benemid) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = C Theoretically, niacin might antagonize the therapeutic effects of uricosurics such as probenecid.  Details Large doses of niacin reduce urinary excretion of uric acid, potentially causing hyperuricemia (4863,12033). Doses of uricosurics such as probenecid might need to be increased to maintain control of gout in patients who start taking niacin (4458). People who have frequent attacks of gout despite uricosuric therapy should avoid niacin (4863).

SULFINPYRAZONE (Anturane) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = C Theoretically, niacin might antagonize the therapeutic effects of uricosurics such as sulfinpyrazone.  Details Large doses of niacin reduce urinary excretion of uric acid, potentially causing hyperuricemia (4863,12033). Doses of uricosurics such as sulfinpyrazone might need to be increased to maintain control of gout in patients who start taking niacin (4458). People who have frequent attacks of gout despite uricosuric therapy should avoid niacin (4863).

THYROID HORMONE Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = D Theoretically, niacin might antagonize the therapeutic effects of thyroid hormones.  Details Clinical research and case reports suggests that taking niacin can reduce serum levels of thyroxine-binding globulin by up to 25% and moderately reduce levels of thyroxine (T4) (25916,25925,25926,25928). Patients taking thyroid hormone for hypothyroidism might need dose adjustments when using niacin.

TRANSDERMAL NICOTINE (Nicoderm) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, concomitant use of niacin and transdermal nicotine might increase the risk of flushing and dizziness.  Details Niacin and nicotine can both cause flushing and dizziness (496,96211).

(Read more about NIACIN)

ANTICOAGULANT/ANTIPLATELET DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, rauwolscine may have antiplatelet effects and may increase the risk of bleeding if used with anticoagulant or antiplatelet drugs.  Details Rauwolscine is structurally related to yohimbine. In vitro research shows that yohimbine inhibits platelet aggregation (86773,86806,86835,86853).

CALCIUM CHANNEL BLOCKERS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, rauwolscine may have additive coronary vasodilatory effects if used with calcium channel blockers.  Details In vitro, rauwolscine inhibits calcium influx in aortic smooth muscle cells (103576).

CLONIDINE (Catapres) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, rauwolscine may inhibit the effects of clonidine.  Details In animal research, rauwolscine antagonized the effects of clonidine (103578,103580,103581).

CYTOCHROME P450 2D6 (CYP2D6) SUBSTRATES Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, rauwolscine might increase levels of drugs metabolized by CYP2D6.  Details Rauwolscine is structurally related to yohimbine. In vitro research shows that yohimbine inhibits CYP2D6 enzyme activity (23117).

SEIZURE THRESHOLD LOWERING DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, taking rauwolscine with seizure threshold lowering drugs might increase the risk of adverse convulsant effects.  Details In animal research, intraperitoneal rauwolscine lowered the seizure threshold level of the drug metrazol (103574).

STIMULANT DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, taking rauwolscine with stimulant drugs might increase the risk of adverse stimulant effects.  Details Rauwolscine has demonstrated stimulant effects in animal research (103574).

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ANTIHYPERTENSIVE DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = D Theoretically, taurine might increase the risk of hypotension when taken with antihypertensive drugs.  Details Some clinical evidence suggests that taurine can reduce both systolic and diastolic blood pressure (77229,95614,104166).

LITHIUM Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = D Theoretically, taurine might reduce excretion and increase plasma levels of lithium.  Details Taurine is thought to have diuretic properties (3647), which might reduce the excretion of lithium.

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ANTICOAGULANT/ANTIPLATELET DRUGS Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, combining yohimbe bark with antiplatelet or anticoagulant drugs might have additive effects; however, this has not been reported in clinical research.  Details Research in healthy adults shows that taking yohimbine, a constituent of yohimbe bark, in doses of 8 mg or more, seems to inhibit platelet aggregation in vitro by binding to the alpha-2 adrenoceptor (86773,86806,86835,86853). The effects of yohimbe bark itself are unclear; yohimbe bark contains 0.6% to 1.38% yohimbine, but it is unclear how much is absorbed (86862,89263).

ANTIHYPERTENSIVE DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = D Theoretically, yohimbe might reduce the effects of antihypertensive drugs.  Details Yohimbine, a constituent of yohimbe, is an alpha-2 adrenoceptor antagonist and has been reported to increase blood pressure in clinical research. Theoretically, concomitant use of yohimbe and antihypertensive drugs can interfere with blood pressure control (11,17465).

CLONIDINE (Catapres) Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, yohimbe might precipitate clonidine withdrawal.  Details Chronic clonidine use can downregulate alpha-2 adrenoreceptors. Animal research and one human case report suggest that concomitant administration of yohimbine, an alpha-2 adrenoceptor antagonist, may precipitate clonidine withdrawal and lead to sympathomimetic toxicity, including hypertensive crisis (111406).

CYTOCHROME P450 1A2 (CYP1A2) SUBSTRATES Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, yohimbe might decrease the levels and clinical effects of CYP1A2 substrates.  Details In vitro research shows that yohimbe extract induces CYP1A2 enzymes (111404).

CYTOCHROME P450 2D6 (CYP2D6) INHIBITORS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, CYP2D6 inhibitors might increase the levels and adverse effects of yohimbine, a constituent of yohimbe.  Details In vitro and clinical research shows that the yohimbe bark constituent, yohimbine, is metabolized by CYP2D6 isoenzymes (105688,105697,105698).

CYTOCHROME P450 2D6 (CYP2D6) SUBSTRATES Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, yohimbe might increase the levels and adverse effects of CYP2D6 substrates.  Details In vitro research suggests that yohimbine, a constituent of yohimbe bark, inhibits CYP2D6 enzyme activity (23117).

CYTOCHROME P450 3A4 (CYP3A4) INHIBITORS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, CYP3A4 inhibitors might increase the levels and adverse effects of yohimbine, a constituent of yohimbe bark.  Details In vitro and clinical research shows that the yohimbe bark constituent, yohimbine, is metabolized by CYP3A4 enzymes (105688,105698). Theoretically, drugs that inhibit CYP3A4 might increase the levels and adverse effects of yohimbine.

CYTOCHROME P450 3A4 (CYP3A4) SUBSTRATES Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, yohimbe might decrease the levels and clinical effects of CYP3A4 substrates.  Details In vitro research shows that yohimbe extract induces CYP3A4 enzymes (111404).

MONOAMINE OXIDASE INHIBITORS (MAOIs) Interaction Rating = Major Do not take this combination. Severity = High •  Occurrence = Likely •  Level of Evidence = D Concomitant use of MAOIs with yohimbe can result in additive effects.  Details Yohimbine, a constituent of yohimbe, has MAO inhibitory effects. At high doses, yohimbine is a non-selective inhibitor of MAO (11,12).

PHENOTHIAZINES Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, using yohimbine with phenothiazines might have additive effects.  Details Yohimbine, a constituent of yohimbe, has alpha-2 adrenergic antagonist effects. Theoretically, combining it with phenothiazines can cause additive alpha-2 adrenergic antagonism (19).

STIMULANT DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, taking yohimbe with stimulant drugs can have additive effects.  Details Yohimbine, a constituent of yohimbe, has sympathomimetic effects and increases blood pressure in a dose-dependent manner. Theoretically, taking yohimbe with stimulant drugs can have additive stimulant and hypertensive effects (11,12,105698).

TRICYCLIC ANTIDEPRESSANTS (TCAs) Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, taking yohimbe with TCAs can increase adverse effects.  Details A small clinical study in patients taking TCAs for at least 4 weeks shows that receiving doses of intravenous yohimbine 2.5-20 mg daily for up to 7 days precipitates severe anxiety, agitation, and tremor (105881). The effects of yohimbe bark itself are unclear; oral yohimbe bark contains 0.6% to 1.38% yohimbine, but it is unclear how much is absorbed (86862,89263).

(Read more about YOHIMBE)

General ...Orally, alpha-GPC seems to be well tolerated.
Serious Adverse Effects (Rare):
Orally: Stroke.

Dermatologic ...Orally, some patients can experience skin rash (12102). Intramuscularly, alpha-GPC can cause erythema at the injection site (12101).

Gastrointestinal ...Orally, alpha-GPC has been rarely associated with diarrhea, heartburn, nausea, and vomiting (12102).
Intramuscularly, alpha-GPC has been rarely associated with diarrhea, heartburn, nausea, and vomiting (12102).

Neurologic/CNS ...Orally, alpha-GPC has been rarely associated with dizziness, excitation, headache, and insomnia (12102). Alpha-GPC use for at least 2 months has also been associated with an elevated risk of stroke when compared with non-users or those who used alpha-GPC for less than 2 months (108883).
Intramuscularly, alpha-GPC has been rarely associated with confusion, excitation, fainting, headache, and insomnia (12102).

(Read more about ALPHA-GPC)

General ...Orally, beta-alanine seems to be generally well tolerated.
Most Common Adverse Effects:
Orally: Flushing, paresthesia.

Gastrointestinal ...While rare, digestion problems have been reported with oral beta-alanine use (94341).

Neurologic/CNS ...Orally, beta-alanine can cause a dose-dependent feeling of pins and needles (paresthesias) along with skin flushing (16438,94333,94335,94338,94341,94342,94349,101028,101029,106711). This generally starts on the scalp within 20 minutes of the dose, spreading to most of the body, and lasting for about an hour. This was described as severe at a dose of 40 mg/kg, tolerable at a dose of 20 mg/kg, and very mild at a dose of 10 mg/kg. At the lowest dose it only occurred in 25% of subjects (16438). In some studies, beta-alanine has been given as frequently as 8 times per day so that each dose can be kept below 10 mg/kg (16438,16439). Other clinical research shows that taking beta-alanine in a tablet formulation eliminates the presence of parasthesias at a dose of 1.6 grams when compared with a solution made from powdered beta-alanine. This effect may be due to delayed absorption (97974,97975). Although paresthesias still occur with sustained-release formulations, their presence is less frequent when compared with immediate-release formulations (101029).

(Read more about BETA-ALANINE)

General ...Orally, black walnut fruit (nut) is well tolerated. However, the leaf, bark, and hull of black walnut contain high quantities of tannins, which may cause adverse effects when used orally or topically.
Most Common Adverse Effects:
Orally: The leaf, bark, and hull can cause gastrointestinal upset.
Topically: Hull preparations may cause a temporary yellow or brown discoloration at the site of application. The leaf, bark, and hull can cause skin irritation.
Serious Adverse Effects (Rare):
Orally: The bark may increase the risk for tongue cancer or lip leukoplakia when used long-term.
All routes of administration: Allergic reactions, including anaphylaxis.

Dermatologic ...Topically, black walnut leaf, bark, or hull may have an irritating effect on the skin due to tannin content. Black walnut hull preparations might cause a temporary yellow or brown discoloration of the skin at the site of application (12).

Gastrointestinal ...Orally, black walnut leaf, bark, or hull may cause gastrointestinal upset due to tannin content (12). Also, daily use of the juglone-containing bark of a related species (English walnut) is associated with increased risk of tongue cancer and lip leukoplakia (2,12).

Hepatic ...Orally, black walnut leaf, bark, or hull may cause liver damage if taken for extended periods of time due to tannin content (12).

Immunologic ...Tree nuts, which include black walnuts, can cause allergic reactions in sensitive individuals. Due to the prevalence of this allergy in the general population, tree nuts are classified as a major food allergen in the United States (105410).

Renal ...Orally, black walnut leaf, bark, or hull may cause kidney damage if taken for extended periods of time due to tannin content (12).

(Read more about BLACK WALNUT)

General ...Caffeine in moderate doses is typically well tolerated.
Most Common Adverse Effects:
Orally: Anxiety, dependence with chronic use, diarrhea, diuresis, gastric irritation, headache, insomnia, muscular tremors, nausea, and restlessness.
Serious Adverse Effects (Rare):
Orally: Stroke has been reported rarely.

Cardiovascular ...Caffeine can temporarily increase blood pressure. Usually, blood pressure increases 30 minutes after ingestion, peaks in 1-2 hours, and remains elevated for over 4 hours (36539,37732,37989,38000,38300).
Although acute administration of caffeine can cause increased blood pressure, regular consumption does not seem to increase either blood pressure or pulse, even in mildly hypertensive patients (1451,1452,2722,38335). However, the form of caffeine may play a role in blood pressure increase after a more sustained caffeine use. In a pooled analysis of clinical trials, coffee intake was not associated with an increase in blood pressure, while ingesting caffeine 410 mg daily for at least 7 days modestly increased blood pressure by an average of 4.16/2.41 mmHg (37657). In one case, a 42-year-old male taking Hydroxycut, a product containing caffeine, garcinia, gymnema, green tea, glucomannan, guarana extract, and willow bark, 8 tablets daily for 3 weeks, presented with malignant hypertension and hypertensive retinopathy. He was stabilized after discontinuation of Hydroxycut and symptom management with metoprolol and hydralazine; hypertension was resolved at a four-week follow-up. The suspected causal agent was caffeine 800 mg daily, although the other ingredients cannot be ruled out (16527).
When used prior to intensive exercise, caffeine can increase systolic blood pressure by 7-8 mmHg (38308). The blood pressure-raising effects of caffeine are greater during stress (36479,38334) and after caffeine-abstinence of at least 24 hours (38241).
Epidemiological research suggests there is no association of caffeine consumption with incidence of hypertension (38190). Habitual coffee consumption also doesn't seem to be related to hypertension, but habitual consumption of sugared or diet cola is associated with development of hypertension (13739).
Epidemiological research has found that regular caffeine intake of up to 400 mg daily is not associated with increased incidence of atrial fibrillation (38018,38076,91028,91034,97451,97453,103708), atherosclerosis (38033), cardiac ectopy (91127), stroke (37804), ventricular arrhythmia (95948,97453), and cardiovascular disease in general (37805,98806). One clinical trial shows that in adults with diagnosed heart failure, consumption of 500 mg of coffee does not result in an increased risk for arrhythmia during exercise (95950). However, caffeine intake may pose a greater cardiovascular risk to subjects that are not regular users of caffeine. For example, in one population study, caffeinated coffee consumption was associated with an increased risk of ischemic stroke in subjects that don't regularly drink coffee (38102). In a population study in Japanese subjects, caffeine-containing medication use was modestly associated with hemorrhagic stroke in adults that do not consume caffeine regularly (91059).
The most common side effect of caffeine in neonates receiving caffeine for apnea is tachycardia (98807).

Dermatologic ...There are several case reports of urticaria after caffeine ingestion (36546,36448,36475).

Endocrine ...Some evidence shows caffeine is associated with fibrocystic breast disease or breast cancer in females; however, this is controversial since findings are conflicting (8043,108806). Restricting caffeine in females with fibrocystic breast conditions doesn't seem to affect breast nodularity, swelling, or pain (8996). A population analysis of the Women's Health Initiative observational study has found no association between consumption of caffeine-containing beverages and the incidence of invasive breast cancer in models adjusted for demographic, lifestyle, and reproductive factors (108806). Also, a dose-response analysis of 2 low-quality observational studies has found that high consumption of caffeine is not associated with an increased risk of breast cancer (108807).
Clinical research in healthy adults shows that an increase consumption of caffeine results in increased insulin resistance (91023).

Gastrointestinal ...Gastrointestinal upset, nausea, diarrhea, abdominal pain, and fecal incontinence may occur with caffeine intake (36466,37755,37806,37789,37830,38138,38136,38223,95956,95963). Also, caffeine may cause feeding intolerance and gastrointestinal irritation in infants (6023). Perioperative caffeine during cardiopulmonary bypass surgery seems to increase the rate of postoperative nausea and vomiting (97451). Caffeine and coffee consumption have been associated with an increase in the incidence of heartburn (37545,37575,38251,38259,38267) and gastrointestinal esophageal reflux disease (GERD) (38329,37633,37631,37603).

Genitourinary ...Caffeine, a known diuretic, may increase voiding, give a sense of urgency, and irritate the bladder (37874,37961,104580). In men with lower urinary tract symptoms, caffeine intake increased the risk of interstitial cystitis/painful bladder syndrome (38115). Excessive caffeine consumption may worsen premenstrual syndrome. Consumption of up to 10 cups of caffeinated drinks daily was associated with increased severity of premenstrual syndrome (38177). Finally, population research shows that exposure to caffeine was not associated with an increased risk of endometriosis (91035).

Immunologic ...Caffeine can cause anaphylaxis in sensitive individuals, although true IgE-mediated caffeine allergy seems to be relatively rare (11315).

Musculoskeletal ...Caffeine can induce or exacerbate muscular tremors (38136,37673,38161). There has also been a report of severe rhabdomyolysis in a healthy 40-year-old patient who consumed an energy drink containing 400 mg of caffeine (4 mg/kg) and then participated in strenuous weightlifting exercise (108818).
Epidemiological evidence regarding the relationship between caffeine use and the risk for osteoporosis is contradictory. Caffeine can release calcium from storage sites and increase its urinary excretion (2669,10202,11317,111489). Females with a genetic variant of the vitamin D receptor appear to be at an increased risk for the detrimental effect of caffeine on bone mass (2669). However, moderate caffeine intake, less than 300 mg daily, does not seem to significantly increase osteoporosis risk in most postmenopausal adults with normal calcium intake (2669,6025,10202,11317). Premature infants treated with intravenous caffeine for apnea of prematurity, have a lower bone mineral content compared with infants who are not treated with caffeine, especially when treatment extends beyond 14 days (111489).

Neurologic/CNS ...Caffeine can cause headaches, anxiety, jitteriness, restlessness, and nervousness (36466,37694,37755,37806,37865,37830,37889,38223,95952). In adolescents, there is an inverse correlation between the consumption of caffeine and various measurements of cognitive function (104579). Insomnia is a frequent adverse effect in children (10755). Caffeine may result in insomnia and sleep disturbances in adults as well (36445,36483,36512,36531,37598,37795,37819,37862,37864,37890)(37968,37971,38091,38242,91022,92952). Additionally, caffeine may exacerbate sleep disturbances in patients with acquired immunodeficiency syndrome (AIDS) (10204). Combining ephedra with caffeine can increase the risk of adverse effects. Jitteriness, hypertension, seizures, temporary loss of consciousness, and hospitalization requiring life support has been associated with the combined use of ephedra and caffeine (2729). Finally, epidemiological research suggests that consuming more than 190 mg of caffeine daily is associated with an earlier onset of Huntington disease by 3.6 years (91078).

Ocular/Otic ...In individuals with glaucoma, coffee consumption and caffeine intake has been found to increase intraocular pressure (8540,36464,36465,37670). The magnitude of this effect seems to depend on individual tolerance to caffeine. Some research in healthy young adults shows that caffeine increases intraocular pressure to a greater degree in low-consumers of caffeine (i.e., 1 cup of coffee or less daily) when compared to high-consumers (i.e., those consuming 2 cups of coffee or more daily) (100371). The peak increase of intraocular pressure seems to occur at about 1.5 hours after caffeine ingestion, and there is no notable effect 4 hours after ingestion (36462,100371).

Oncologic ...Most human studies which have examined caffeine or methylxanthine intake have found that they do not play a role in the development of various cancers, including breast, ovarian, brain, colon, rectal, or bladder cancer (37641,37737,37775,37900,38050,38169,38220,91054,91076,108806).

Psychiatric ...Caffeine may lead to habituation and physical dependence (36355,36453,36512,36599), with amounts as low as 100 mg daily (36355,36453). An estimated 9% to 30% of caffeine consumers could be considered addicted to caffeine (36355). Higher doses of caffeine have caused nervousness, agitation, anxiety, irritability, delirium, depression, sleep disturbances, impaired attention, manic behavior, psychosis and panic attacks (36505,37717,37818,37839,37857,37982,38004,38017,38028,38072)(38079,38138,38306,38325,38331,38332,97464). Similar symptoms have been reported in a caffeine-naïve individual experiencing fatigue and dehydration after a dose of only 200 mg, with resolution of symptoms occurring within 2 hours (95952).
Withdrawal: The existence or clinical importance of caffeine withdrawal is controversial. Some researchers think that if it exists, it appears to be of little clinical significance (11839). Headache is the most common symptom, due to cerebral vasodilation and increased blood flow (37769,37991,37998). Other researchers suggest symptoms such as tiredness and fatigue, decreased energy, alertness and attentiveness, drowsiness, decreased contentedness, depressed mood, difficulty concentration, irritability, and lack of clear-headedness are typical of caffeine withdrawal (13738). Withdrawal symptoms typically occur 12-24 hours after the last dose of caffeine and peak around 48 hours (37769,36600). Symptoms may persist for 2-9 days. Withdrawal symptoms such as delirium, nausea, vomiting, rhinorrhea, nervousness, restlessness, anxiety, muscle tension, muscle pains, and flushed face have been described. However, these symptoms may be from nonpharmacological factors related to knowledge and expectation of effects. Clinically significant symptoms caused by caffeine withdrawal may be uncommon (2723,11839). In a case report, caffeine consumption of 560 mg daily was associated with increased suicidality (91082).

Renal ...Data on the relationship between caffeine intake and kidney stones are conflicting. Some clinical research shows that caffeine consumption may increase the risk of stone formation (37634,111498), while other research shows a reduced risk with increasing caffeine intakes (111498). A meta-analysis of 7 studies found that overall, there is an inverse relationship, with a 32% decrease in the risk of kidney stones between the lowest and highest daily intakes of caffeine (111498).

Other ...People with voice disorders, singers, and other voice professionals are often advised against the use of caffeine; however, this recommendation has been based on anecdotal evidence. One small exploratory study suggests that caffeine ingestion may adversely affect subjective voice quality, although there appears to be significant intra-individual variability. Further study is necessary to confirm these preliminary findings (2724).

(Read more about CAFFEINE)

General ...Orally, choline is well tolerated when used appropriately. Adverse effects have been reported with doses exceeding the tolerable upper intake level (UL) of 3.5 grams daily.
Most Common Adverse Effects:
Orally: Fishy body odor. At high doses of at least 9 grams daily, choline has been reported to cause diarrhea, nausea, salivation, sweating, and vomiting.

Cardiovascular ...Orally, doses of choline greater than 7. 5 grams daily may cause low blood pressure (94648).

Gastrointestinal ...Orally, large doses of choline can cause nausea, vomiting, salivation, and anorexia (42275,91231). Gastrointestinal discomfort has reportedly occurred with doses of 9 grams daily, while gastroenteritis has reportedly occurred with doses of 32 grams daily (42291,42310). Doses of lecithin 100 grams standardized to 3.5% choline have reportedly caused diarrhea and fecal incontinence (42312).

Genitourinary ...Orally, large doses of choline greater than 9 grams daily have been reported to cause urinary incontinence (42291).

Neurologic/CNS ...Orally, high intake of choline may cause sweating due to peripheral cholinergic effects (42275).

Oncologic ...In one population study, consuming large amounts of choline was associated with an increased risk of colorectal cancer in females, even after adjusting for red meat intake (14845). However, more research is needed to confirm this finding.

Psychiatric ...Orally, large doses of choline (9 grams daily) have been associated with onset of depression in patients taking neuroleptics. Further research is needed to clarify this finding (42270).

Other ...Orally, choline intake may cause a fishy body odor due to intestinal metabolism of choline to trimethylamine (42285,42275,42310,92111,92112).

(Read more about CHOLINE)

General ...Orally, intramuscularly, and intravenously, citicoline seems to be well-tolerated.
Most Common Adverse Effects:
Orally: Abdominal pain, back pain, blurred vision, constipation, diarrhea, edema, headache, insomnia, nausea, rash.

Cardiovascular ...Orally, citicoline may cause chest pain, palpitations, hypotension, bradycardia, tachycardia, and peripheral edema in some patients, although the incidence is likely similar to placebo (12130,12131,12132,43225).

Dermatologic ...Orally, citicoline may cause skin rash in some patients (12130,12132,43248).

Gastrointestinal ...Orally, citicoline may cause abdominal pain, constipation, diarrhea, and nausea in some patients (12130,12132,98846,100988,105730,109015).

Musculoskeletal ...Orally, citicoline may cause back pain in some patients (43225).

Neurologic/CNS ...Orally, citicoline may cause headache and insomnia in some patients (12130,43230,43273,98846,100988,109015,109016).

Ocular/Otic ...Orally, citicoline may cause blurred vision in some patients (12130,12132).

Other ...Orally, citicoline may cause edema of the extremities in some patients (43225).

(Read more about CITICOLINE)

General ...Orally and intravenously, L-carnitine is generally well tolerated.
Most Common Adverse Effects:
All routes of administration: Abdominal cramps, abdominal pain, diarrhea, gastritis, heartburn, nausea, reduced appetite, and vomiting. A fish-like body odor has also been reported.
Serious Adverse Effects (Rare):
All routes of administration: Seizures.

Cardiovascular ...According to population research, plasma L-carnitine levels are associated with increased risk of cardiovascular disease and major cardiac events (90635). However, oral supplementation with L-carnitine does not appear to be associated with an increased risk of cardiovascular disease. In fact, a meta-analysis of clinical research shows that L-carnitine supplementation is associated with a reduction in all-cause mortality, as well as ventricular arrhythmias and the development of angina and does not increase the development of heart failure or myocardial reinfarction (59037). Also, another meta-analysis suggests that L-carnitine does not affect mortality or cardiovascular outcomes in patients with a previous myocardial infarction (90630).

Dermatologic ...Orally, L-carnitine has been reported to cause skin rash in a small number of cases (16105,91724). Two patients in a hair growth study using topical carnitine reported mild itching and increased dandruff, while a third reported strong itching with reddish bumps and a burning sensation (58390). When a specific formulation containing L-carnitine, licochalcone, and 1,2-decanediol was applied to the face, mild skin dryness and tightness was reported by 12% of volunteers, compared with 4% to 8% of those in the vehicle-only control group (26493).

Gastrointestinal ...Orally and intravenously, L-carnitine has been associated with nausea, epigastric discomfort, vomiting, abdominal cramps, heartburn, gastritis, anorexia, and diarrhea (3616,3624,59030,95069,95070,101562,107410,111870,111887,111891). Orally, diarrhea or colitis symptoms (1433,3630,16105,16107,16111,23437,58523,58554,59020,90623), nausea and abdominal pain (16105,16106,26499,58169,58392,58554,90623,90634), indigestion (26703), and constipation (58523) have been reported in various clinical trials.

Hematologic ...In one case report, L-carnitine 990 mg twice daily was started in a female presenting to hospital with valproic acid toxicity. Blood phosphorous levels subsequently fell from 2.3 mg/dL to 1.3 mg/dL over 4 days. After discontinuation of L-carnitine, blood phosphorus levels increased to 1.8 mg/dL. The authors suggested that the role of L-carnitine in improved protein metabolism may play a role in the declining levels of phosphorous in the blood and increased risk of hypophosphatemia (90628).

Neurologic/CNS ...Orally or intravenously, L-carnitine has been associated with seizures (3616). Orally, use of L-carnitine in clinical trials has resulted in headache, although this event is rare (58554,95070,111891). L-carnitine may also cause agitation (95070).

Other ...Orally or intravenously, L-carnitine has been associated with a fish-like body odor (1433,3616,58166,59854,90623). One of its metabolites, trimethylamine N-oxide, can cause the urine, breath, and sweat to have a fishy odor (12756,58664).

(Read more about L-CARNITINE)

General ...Orally, L-citrulline seems to be generally well tolerated.
Most Common Adverse Effects:
Orally: Gastrointestinal discomfort, heartburn.

Gastrointestinal ...Orally, gastrointestinal intolerance, stomach discomfort, and heartburn have been reported with L-citrulline use (94955,94963,94966).

Genitourinary ...Orally, 2 of 25 patients with pulmonary hypertension reported increased urinary frequency and edema while taking 1 gram of powdered L-citrulline in water daily (94963).

Pulmonary/Respiratory ...Orally, 2 of 25 patients with pulmonary hypertension reported cough while taking 1 gram of powdered L-citrulline in water daily (94963).

(Read more about L-CITRULLINE)

General ...Orally, niacin is well tolerated in the amounts found in foods. It is also generally well tolerated in prescription doses when monitored by a healthcare provider.
Most Common Adverse Effects:
Orally: Flushing, gastrointestinal complaints (abdominal pain, constipation, diarrhea, heartburn, nausea, vomiting), and elevated liver enzymes.
Serious Adverse Effects (Rare):
Orally: Hepatotoxicity, myopathy, thrombocytopenia, and vision changes.

Cardiovascular ...Orally, flushing is a common dose-related adverse reaction to niacin. A large meta-analysis of clinical studies shows that up to 70% of patients may experience flushing (96211). Although flushing can occur with doses of niacin as low as 30 mg daily, it is more common with the larger doses used for treatment of dyslipidemia. The flushing reaction is due to prostaglandin-induced blood vessel dilation and can also include symptoms of burning, tingling, urticaria, erythema, pain, and itching of the face, arms, and chest. There may also be increased intracranial blood flow and headache (4889,26089,93341,104933). Onset is highly variable and ranges from within 30 minutes to as long as 6 weeks after the initial dose (6243). Flushing can be minimized via various strategies, including taking doses with meals, slow dose titration, using extended release formulations, pretreating with non-steroidal anti-inflammatory drugs, taking regular-release niacin with meals, or taking the sustained-release product at bedtime (4852,4853,4854,4857,4858,25922,26073,26084). Flushing often diminishes with continued use but can recur when niacin is restarted after missed doses (4863,6243,26081). The vasodilating effects of niacin can also cause hypotension, dizziness, tachycardia, arrhythmias, syncope, and vasovagal attacks, especially in patients who are already taking antihypertensive drugs (4863,12033,93341,110494).
High doses of niacin can raise homocysteine levels. A 17% increase has been reported with 1 gram daily and a 55% increased has been reported with 3 grams daily. Elevated homocysteine levels are an independent risk factor for cardiovascular disease (490); however, the clinical significance of this effect is unknown. A large-scale study (AIM-HIGH) found that patients receiving extended-release niacin (Niaspan) 1500-2000 mg daily with a statin had an over two-fold increased risk of ischemic stroke (1.6%) when compared with those receiving only simvastatin (0.7%). However, when the risk was adjusted for confounding factors, niacin was not found to be associated with increased stroke risk (17627,93354). A meta-analysis of three clinical trials conducted in approximately 29,000 patients showed a higher risk of mortality in patients taking niacin in addition to a statin when compared with a statin alone. However, with a p-value of 0.05 and confidence interval including 1, the validity of this finding remains unclear (97308).

Endocrine ...Orally, niacin can impair glucose tolerance in a dose-dependent manner. Dosages of 3-4 grams daily appear to increase blood glucose in patients with or without diabetes, while dosages of 1.5 grams daily or less have minimal effects (12033). Niacin is thought to impair glucose tolerance by increasing insulin resistance or increasing hepatic output of glucose (4863,11692,11693). In patients with diabetes, niacin 4.5 grams daily for 5 weeks has been associated with an average 16% increase in plasma glucose and 21% increase in glycated hemoglobin (HbA1C) (4860). Up to 35% of patients with diabetes may need to increase the dose or number of hypoglycemic agents when niacin is started (4458,4860,4863,11689,12033). Occasionally, severe hyperglycemia requiring hospitalization can occur (11693). In patients with impaired fasting glucose levels, niacin may also increase fasting blood glucose, and adding colesevelam might attenuate this effect (93343).
Although patients without diabetes seem to only experience small and clinically insignificant increases in glucose (4458), niacin might increase their risk of developing diabetes. A meta-analysis of clinical research involving over 26,000 patients shows that using niacin over 5 years is associated with increased prevalence of new onset type 2 diabetes at a rate of 1 additional case of diabetes for every 43 patients treated with niacin (96207). This finding is limited because the individual trials were not designed to assess diabetes risk and the analysis could not be adjusted for confounding factors like obesity. One small clinical study shows that taking extended-release niacin with ezetimibe/simvastatin does not increase the risk of a new diagnosis of diabetes or need for antidiabetic medication when compared with ezetimibe/simvastatin alone after 16 months (93344). This may indicate that the increased risk of developing diabetes is associated with niacin use for more than 16 months.
Niacin therapy has also been linked with hypothyroidism and its associated alterations in thyroid hormone and binding globulin tests (such as decreased total serum thyroxine, increased triiodothyronine, decreased thyroxine-binding globulin levels, and increased triiodothyronine uptake) (25916,25925,25926,25928).

Gastrointestinal ...Orally, large doses of niacin can cause gastrointestinal disturbances including nausea, vomiting, bloating, heartburn, abdominal pain, anorexia, diarrhea, constipation, and activation of peptic ulcers (4458,4863,12033,26083,93341,96211). These effects may be reduced by taking the drug with meals or antacid, and usually disappear within two weeks of continued therapy (4851,26094). Gastrointestinal effects may be more common with time-release preparations of niacin (11691).

Hematologic ...Orally, sustained-release niacin has been associated with cases of reversible coagulopathy, mild eosinophilia, and decreased platelet counts (4818,25915,26097,93340). Also, there have been reports of patients who developed leukopenia while taking niacin for the treatment of hypercholesterolemia (25916).

Hepatic ...Orally, niacin is associated with elevated liver function tests and jaundice, especially with doses of 3 grams/day or more, and when doses are rapidly increased (4458,4863,6243). The risk of hepatotoxicity appears to be higher with slow-release and extended-release products (4855,4856,4863,6243,11691,12026,12033,93342). Niacin should be discontinued if liver function tests rise to three times the upper limit of normal (4863). There are rare cases of severe hepatotoxicity with fulminant hepatitis and encephalopathy due to niacin (4863,6243,11691). Also, there is at least one case of niacin-induced coagulopathy resulting from liver injury without liver enzyme changes (93340).

Musculoskeletal ...Orally, niacin has been associated with elevated creatine kinase levels (4818,4888). Also, several cases of niacin-induced myopathy have been reported (26100,26111). Concomitant administration of niacin and HMG-CoA reductase inhibitors may increase the risk of myopathy and rhabdomyolysis (14508,25918,26111); patients should be monitored closely.

Neurologic/CNS ...Orally, high-dose niacin has been associated with cases of neuropsychiatric adverse events such as extreme pain and psychosis. Two 65-year-old males taking niacin orally for 5 months for the treatment of dyslipidemias developed severe dental and gingival pain. The pain was relieved by the discontinuation of niacin. The pain was thought to be due to inflammation and pain referral to the teeth (4862). In one case report, a 52-year-old male with no history of psychiatric illness who initially complained of hot flushes when taking niacin 500 mg daily, presented with an acute psychotic episode involving mania after niacin was increased to 1000 mg daily (93350).

Ocular/Otic ...Orally, chronic use of large amounts of niacin has been associated with dry eyes, toxic amblyopia, blurred vision, eyelid swelling, eyelid discoloration, loss of eyebrows and eyelashes, proptosis, keratitis, macular edema, and cystic maculopathy, which appear to be dose-dependent and reversible (4863,6243,26112).

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General ...Orally, no adverse effects have been reported. However, a thorough evaluation of safety outcomes has not been conducted.
Serious Adverse Effects (Rare):
Orally: A related chemical, yohimbine, has been reported to cause serious adverse effects, such as loss of consciousness, paralysis, seizures, and vertigo.

Dermatologic ...Since rauwolscine is structurally related to yohimbine, rauwolscine might theoretically cause similar adverse effects. Yohimbine may cause rash, erythrodermic skin eruption, and exanthema (3312,3971,86878,86896).

Gastrointestinal ...Since rauwolscine is structurally related to yohimbine, rauwolscine might theoretically cause similar adverse effects. Nausea, vomiting, increased salivation, diarrhea, and gastrointestinal distress may occur with yohimbine use (3970,17465,86780,86786,86804,86827,86896).

Genitourinary ...Since rauwolscine is structurally related to yohimbine, rauwolscine might theoretically cause similar adverse effects. Orally, yohimbine may cause dartos contraction or decreased libido in some patients (86786,86882).

Immunologic ...Since rauwolscine is structurally related to yohimbine, rauwolscine might theoretically cause similar adverse effects. There is one report of a hypersensitivity reaction including fever, chills, malaise, itchy and scaly skin, progressive renal failure, and lupus-like syndrome associated with ingestion of a one-day dose of yohimbine (6169).

Neurologic/CNS ...Since rauwolscine is structurally related to yohimbine, rauwolscine might theoretically cause similar adverse effects. Orally, yohimbine has been associated with reports of tremulousness, head twitching, seizures, loss of consciousness, enhanced brain norepinephrine release, decreased energy, dizziness, vertigo, headache, feeling cold, flushing, diaphoresis, and paralysis (11,18,3312,3971,17465,86786,86801,86804,86827,86896).

Psychiatric ...Since rauwolscine is structurally related to yohimbine, rauwolscine might theoretically cause similar adverse effects. Orally, yohimbine may cause anxiety (17465) and impulsivity (86784,86810).

Pulmonary/Respiratory ...Since rauwolscine is structurally related to yohimbine, rauwolscine might theoretically cause similar adverse effects. Orally, yohimbine may cause bronchospasm, tachypnea, cough, sinusitis, and rhinorrhea (17465,86825,86850,94112).

Renal ...Since rauwolscine is structurally related to yohimbine, rauwolscine might theoretically cause similar adverse effects. A case of acute renal failure related to yohimbine-induced systemic lupus erythematosus has been reported (6169).

(Read more about RAUWOLSCINE)

General ...Orally, taurine is generally well-tolerated when used in typical doses for up to one year.
Most Common Adverse Effects:
Orally: Constipation, diarrhea, and dyspepsia.
Serious Adverse Effects (Rare):
Orally: Hypersensitivity reactions in sensitive individuals. Case reports raise concerns for serious adverse effects, but these reports have involved energy drinks containing taurine and other ingredients. It is unclear if these adverse effects are due to taurine, other ingredients, or the combination.

Cardiovascular ...Decreased heart rate and increased blood pressure have been reported following the co-administration of taurine and caffeine, although the effects of taurine alone are unclear (77088). In healthy individuals, consumption of energy drinks containing taurine increased platelet aggregation and decreased endothelial function (77151). A case of cardiac arrest following strenuous exercise and an excessive intake of energy drinks containing caffeine and taurine has been reported (77136).

Endocrine ...Orally, taurine has been reported to cause hypoglycemia (77153).

Gastrointestinal ...Orally, constipation has been reported following the administration of taurine (77231). Dyspepsia has also been reported after oral taurine use (104165).

Hematologic ...In clinical research, taurine reduced platelet aggregation (77245). A case of massive intravascular hemolysis, presenting with confusion, dark urine, dyspnea, emesis, and fever, has been reported following the administration of a naturopathic vitamin infusion containing taurine, free amino acids, magnesium, and a vitamin B and D complex (77177). However, the effects of taurine alone are unclear.

Immunologic ...A case report describes a hypersensitivity reaction in a female patient with a history of allergies to sulfonamides, sulfites, and various foods, after ingestion of taurine and other sulfur-containing supplements. The amount of taurine in the products ranged from 50-500 mg per dose. The allergic reaction recurred upon rechallenge with taurine 250-300 mg (91514).

Neurologic/CNS ...In a case study, encephalopathy occurred in a body-builder who took approximately 14 grams of taurine in combination with insulin and anabolic steroids. It is not known if this was due to the taurine or the other drugs taken (15536).
Cases of seizures following the consumption of energy drinks containing taurine have been reported (77105,77196). In clinical research, taurine has been reported to cause drowsiness and ataxia in epileptic children (77241).

Psychiatric ...In a case report, a 36-year-old male with adequately controlled bipolar disorder was hospitalized with symptoms of mania after consuming several cans of an energy drink containing taurine, caffeine, glucuronolactone, B vitamins, and other ingredients (Red Bull Energy Drink) over a period of four days (14302). It is unknown if this effect was related to taurine.

Pulmonary/Respiratory ...In human research, an exacerbation of pulmonary symptoms of cystic fibrosis has been associated with taurine supplementation, although this could also be caused by progression of the disease (77231).

Renal ...A case of acute kidney failure has been reported following the concomitant intake of 1 liter of vodka and 3 liters of an energy drink providing taurine 4. 6 grams, caffeine 780 mg, and alcohol 380 grams (77185).

(Read more about TAURINE)

General ...Orally, there is limited information available about the adverse effects of yohimbe. Yohimbine, a constituent of yohimbe, might be unsafe; most reported adverse effects are dose-related.
Most Common Adverse Effects:
Orally: Yohimbine, a constituent of yohimbe, has been associated with anxiety, agitation, diaphoresis, diarrhea, flushing, headache, hypertension, increased urination, nausea, tachycardia, tremors, vertigo, and vomiting.
Serious Adverse Effects (Rare):
Orally: Yohimbine, a constituent of yohimbe, has been associated with atrial fibrillation, hypertensive crisis, myocardial infarction, and QT interval prolongation.

Cardiovascular ...Orally, yohimbine, a constituent of yohimbe, has been associated with hypertension, especially at higher doses (3312,17465,86801,86802,86804,86811,86820,86822,86834,86856)(86786,86896). A case of hypertensive crisis was reported in a 63-year-old male taking a yohimbine-containing herbal product once daily for one month. The patient was successfully managed with intravenous nitroprusside followed by clonidine (91521). Tachycardia, fluid retention, palpitations, and chest discomfort have also been reported (3312,17465,86786,86793,86801,86802,86804,86822,86843,86854)(86856,86866,86867,86869,86871,86874,86875). Conduction abnormalities have also been reported (86856,86786). There have been some reports of myocardial infarction, atrial fibrillation, and QT interval prolongation (17465). In theory, these effects may also occur with the use of yohimbe bark extract.

Dermatologic ...Orally, yohimbine, a constituent of yohimbe, may cause rash, erythrodermic skin eruption, and exanthema (3312,3971,86804,86896,86878).

Gastrointestinal ...Orally, yohimbine, a constituent of yohimbe, may cause nausea, vomiting, increased salivation, diarrhea, and gastrointestinal distress (3970,17465,49902,86780,86781,86786,86801,86804,86824,86827)(86828,86829,86863,86878,86882,86896).

Genitourinary ...Orally, yohimbine may cause dartos contraction or decreased libido in some patients (86786,86882). A case of severe intractable priapism has been reported for a 42-year-old male who took a supplement containing yohimbe extract the previous day for sexual enhancement. Treatment with phenylephrine 400 mcg was unsuccessful at resolving the priapism, so surgical insertion of a proximal cavernosal spongiosum shunt was needed (86804).

Hematologic ...A case of drug-induced agranulocytosis has been reported following prolonged use of oral yohimbine, a constituent of yohimbe (86877).

Immunologic ...There is one report of a hypersensitivity reaction including fever; chills; malaise; itchy, scaly skin; progressive renal failure; and lupus-like syndrome associated with ingestion of a one-day dose of yohimbine, a constituent of yohimbe (6169).

Musculoskeletal ...Orally, yohimbine, a constituent of yohimbe, may cause muscle aches (86850).

Neurologic/CNS ...Orally, yohimbine, a constituent of yohimbe, has been associated with reports of general central nervous system (CNS) and autonomic excitation, tremulousness, head twitching, seizure threshold changes, enhanced brain norepinephrine release, decreased energy, dizziness, vertigo, and headache (3312,3971,86774,86779,86786,86804,86827,86857,86870,86882)(86883). Cold feet and chills have also been reported with yohimbine (86827,86896). Other adverse reactions include flushing and diaphoresis (17465). Excessive doses of yohimbine can also cause paralysis (11,18). A case of acute neurotoxicity characterized by malaise, vomiting, loss of consciousness, and seizures has been reported for a 37-year-old bodybuilder who ingested a single dose of yohimbine 5 grams. Improvement was seen within 12 hours following treatment with furosemide, labetalol, clonidine, urapidil, and gastrointestinal decontamination (86801).

Psychiatric ...Orally, yohimbine, a constituent of yohimbe, may increase malaise, fatigue, insomnia, restlessness, agitation, and anxiety (3312,3970,3971,17465,86786,86801,86804,86822,86827,86834)(86868,86878,86882,86896). In a clinical study of healthy subjects, administration of yohimbine increased impulsivity, with larger doses increasing impulsivity more than 50% (86784,86810).

Pulmonary/Respiratory ...Orally, yohimbine, a constituent of yohimbe, may cause bronchospasm, tachypnea, cough, and rhinorrhea (17465,86825,86850). A case of sinusitis characterized by pain and discomfort above both eyes has been reported for a 59-year-old male taking yohimbine 5.4 mg three times daily to treat erectile dysfunction. Symptoms resolved within 24 hours of discontinuing yohimbine. The effect was attributed to the alpha-2 adrenergic antagonist effects of yohimbine (94112). Excessive doses of yohimbine can cause respiratory depression (1118).

Renal ...Orally, yohimbine, a constituent of yohimbe, may increase urinary frequency (3312,3970,3971,17465,86804,86827,86850,86861,86882). A case of acute renal failure has been reported for a 42-year-old male taking yohimbine. Normalization of renal function was achieved following 2 weeks of treatment with corticosteroids. The renal dysfunction was attributed to yohimbine-induced systemic lupus erythematosus (6169).

(Read more about YOHIMBE)