Brewer's Yeast 7 1/2 grain [Discontinued] by Vitamin World

POSSIBLY EFFECTIVE

• Irritable bowel syndrome (IBS). A specific strain of oral brewer's yeast seems to be beneficial for some IBS symptoms. Details: A meta-analysis of results from two clinical studies shows that taking the specific brewer's yeast strain CNCM I-3856 500 mg or 1000 mg daily, standardized to 8 billion colony-forming units (CFUs) per gram, for up to 12 weeks might reduce abdominal pain and discomfort and improve stool consistency in patients with constipation-predominant IBS. It seems to take at least one month for any benefits to occur (95611). Another small clinical study shows that taking the same product as 2 billion CFUs twice daily in addition to standard treatment for 8 weeks modestly improves abdominal pain and stool consistency when compared with standard treatment alone. Benefits were evident within 4 weeks and were found in patients with diarrhea-predominant, constipation-predominant, and mixed-type IBS (105170). Additionally, a large clinical trial in patients with constipation-predominant IBS shows that taking the same brewer's yeast product 8 billion CFUs daily for 8 weeks increases the likelihood of abdominal pain response, defined as a 30% or greater reduction in average daily abdominal pain scores, by 33% and improves quality of life scores when compared with placebo. However, no improvements in bloating, flatulence, stool frequency, or stool consistency were reported (111108).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Acne. Although there has been interest in using oral or topical brewer's yeast for acne, there is insufficient reliable information about the clinical effects of brewer's yeast for this condition.
• Allergic rhinitis (hay fever). It is unclear if oral dried, inactive brewer's yeast is beneficial for allergic rhinitis. Details: Preliminary clinical research in adults with seasonal allergies shows that taking a specific dried, inactive brewer's yeast preparation (EpiCor, Embria Health Sciences) 500 mg once daily for 12 weeks reduces the median severity of nasal congestion by 14%, the median severity of rhinorrhea by 19%, and the median number of days with nasal congestion by 12.5 days during weeks of highest pollen counts when compared with placebo. However, taking this brewer's yeast preparation does not appear to reduce ocular symptoms or sneezing. Also, it does not appear to improve nasal or ocular symptoms during weeks in which pollen counts are lower (92821).
• Clostridioides difficile infection. Although there has been interest in using oral brewer's yeast for C. difficile infection, there is insufficient reliable information about the clinical effects of brewer's yeast for this condition.
• Diarrhea. Although there has been interest in using oral brewer's yeast for diarrhea, there is insufficient reliable information about the clinical effects of brewer's yeast for this condition.
• Furuncles (boils). Although there has been interest in using oral brewer's yeast for furuncles, there is insufficient reliable information about the clinical effects of brewer's yeast for this condition.
• Hypercholesterolemia. It is unclear if oral brewer's yeast is beneficial for hypercholesterolemia. Details: Preliminary clinical research shows that taking brewer's yeast 20 grams, containing chromium 48 mcg, daily for 8 weeks decreases levels of total cholesterol by 24-26 mg/dL and increases levels of high-density lipoprotein (HDL) cholesterol by 5-6 mg/dL when compared to baseline in normocholesterolemic and hypercholesterolemic patients (37178).
• Influenza. It is unclear if oral dried, inactive brewer's yeast is beneficial for influenza. Details: Preliminary clinical research shows that taking a specific dried, inactive brewer's yeast preparation (EpiCor, Embria Health Sciences) 500 mg daily for 12 weeks reduces the incidence of common cold or flu-like symptoms by 10% to 20% when compared with placebo in adults with no history of influenza vaccination. Taking this preparation does not appear to reduce the duration or severity of cold or flu-like symptoms that do occur in these patients (92822). However, in patients recently vaccinated for influenza, clinical research shows that taking this same preparation 500 mg daily for 12 weeks reduces the risk of developing symptoms of the common cold or flu by about 11% and reduces the duration of symptoms that develop by 0.85 days when compared with placebo (16117).
• Premenstrual syndrome (PMS). Oral brewer's yeast has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: A small clinical study shows that taking a specific combination product (Sillix Donna, Giuliani) containing folic acid, vitamin B6, vitamin E, various minerals, and brewer's yeast might help reduce scores on the Menstrual Distress Questionnaire (MDS) when compared to baseline (7845). It is unclear if this benefit is due to brewer's yeast or the vitamins and minerals also contained in the preparation. More evidence is needed to rate brewer's yeast for these uses.

(Read more about BREWER'S YEAST)

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)

EFFECTIVE

• Ariboflavinosis. Oral riboflavin can treat and prevent low riboflavin levels.

POSSIBLY EFFECTIVE

• Hyperhomocysteinemia. Oral riboflavin reduces homocysteine levels in individuals with the MTHFR 677 TT genotype. It does not seem to provide benefit in individuals with other genotypes. Details: Population research has found that poor riboflavin status is associated with high homocysteine levels in individuals with the 677 TT genotype for the MTHFR enzyme (71386,71403,71409). Taking riboflavin 1.6 mg daily for 12 weeks reduces homocysteine levels by 22% to 40% in individuals with the 677 TT genotype of MTHFR when compared with pretreatment. However, riboflavin supplementation does not seem to reduce homocysteine levels in individuals with the 677 CC or CT genotypes (71443).
• Migraine headache. Oral riboflavin modestly reduces migraine attack frequency and severity in adults. The benefits of oral riboflavin in children are unclear. Details: A meta-analysis of 5 small clinical trials in adults with migraine shows that taking riboflavin 100-400 mg daily, alone or in combination with other natural ingredients, for three months modestly reduces migraine duration, frequency, and pain scores when compared with control (105480). These findings are limited by significant heterogeneity. Most clinical studies compared riboflavin 400 mg daily with placebo, no treatment, or an active control (1396,1397,1398,12387,105480). Limited evidence also suggests that taking riboflavin 400 mg daily might be no different for migraine prevention than certain conventional treatments such as bisoprolol 10 mg, metoprolol 200 mg, propranolol 80 mg, or valproate 500 mg (1396,105480). These findings are limited due to small study size and a lack of power to detect a difference between groups. Limited research has also evaluated riboflavin in children. A network meta-analysis of 3 small clinical trials in children with migraine shows that taking oral riboflavin 100-200 mg daily for 4-12 months does not significantly reduce incidence of migraine when compared with placebo. However, there was a non-significant trend towards reduced migraine frequency. Furthermore, conventional treatments such as propranolol, pregabalin, valproate, and topiramate were not shown to be significantly better than riboflavin for migraine prevention (105484). These findings are limited by small population sizes and insufficient power to detect differences between groups. Although riboflavin 100-200 mg has been used in prospective clinical studies, small observational studies have found some benefit in children taking riboflavin doses as low as 10-40 mg daily and as high as 400 mg daily for 3-4 months (105481,105485). Riboflavin has also been studied in combination with other ingredients, with research suggesting potential benefit. Specifically, riboflavin 400 mg has been combined with magnesium 600 mg and coenzyme Q10 150 mg daily (Dolovent; Linpharma Inc.) (92101), and also with magnesium 300 mg and feverfew 100 mg daily (12389).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Acne. Although there is interest in using oral riboflavin for acne, there is insufficient reliable information about the clinical effects of riboflavin for this purpose.
• Alzheimer disease. Although there is interest in using oral riboflavin for Alzheimer disease, there is insufficient reliable information about the clinical effects of riboflavin for this condition.
• Cardiovascular disease (CVD). It is unclear if oral riboflavin can prevent mortality due to CVD. Details: Epidemiological research has found that dietary and supplemental riboflavin intake in the highest quartile, around 3.4 mg daily, is associated with a 47% lower risk of CVD mortality when compared with riboflavin intake in the lowest quartile, around 1 mg/day. The reduction in CVD mortality with riboflavin was enhanced by higher folate intake (110727). The validity of this finding is limited by the fact that dietary riboflavin intake was based on 2-day dietary recall.
• Carpal tunnel syndrome. Although there is interest in using oral riboflavin for carpal tunnel syndrome, there is insufficient reliable information about the clinical effects of riboflavin for this purpose.
• Cataracts. It is unclear if oral riboflavin is beneficial in patients with cataracts. Details: Observational research has found that high dietary intake of riboflavin is associated with a reduced risk of nuclear cataracts and age-related lens opacification (6378,14301). Furthermore, a clinical study in Chinese patients with nutrient deficiencies shows that taking a combination of riboflavin 3 mg plus niacin 40 mg daily also seems to reduce the risk of developing nuclear cataracts when compared with no supplementation (4885). It is unclear if the benefit is due to riboflavin, niacin, or the combination.
• Cervical cancer. It is unclear if oral riboflavin helps to prevent cervical cancer. Details: Epidemiological evidence has found that increased riboflavin intake from dietary and supplement sources, along with other B vitamins, is associated with a reduced risk of precancerous cervical lesions (11074).
• Colorectal cancer. It is unclear if oral riboflavin reduces colorectal cancer risk. Details: Epidemiological evidence in a Chinese population has found that increased dietary intake of riboflavin is associated with a reduced risk of developing colorectal cancer (105482).
• Diabetic neuropathy. Intravenous and oral riboflavin have only been evaluated in combination with other ingredients; riboflavin's effect when used alone is unclear. Details: Clinical research in patients with type 2 diabetes shows that intravenous administration of a specific combination product containing succinic acid, inosine, nicotinamide, and riboflavin (Cytoflavin, Polysan) daily for 10 days followed by an oral formulation of the same product, taken daily for 76 days, reduces symptoms of diabetic neuropathy including paresthesia, numbness, and burning when compared with placebo (110503). It is unclear if these findings are due to riboflavin, other ingredients, or the combination.
• Esophageal cancer. It is unclear if oral riboflavin reduces esophageal cancer risk. Details: Population research in Iranian patients has found that low riboflavin status is associated with a two-fold increase in the risk of esophageal cancer (71439). However, not all evidence agrees. Preliminary clinical studies in Chinese individuals with esophageal dysplasia shows that taking riboflavin, alone or in combination with calcium or niacin, for 3-5 years does not seem to reduce the risk of esophageal cancer in patients when compared with baseline or control (4679,63576,71488). Taking riboflavin 200 mg weekly, in combination with retinol 15 mg and zinc 50 mg, also does not seem to be beneficial in this patient population (71501). It is unclear if these findings are generalizable to geographic locations other than China and Iran.
• Gastric cancer. It is unclear if oral riboflavin reduces colorectal cancer risk. Details: Low quality clinical research in a Chinese population shows that taking riboflavin in combination with niacin does not appear to reduce the risk of gastric cancer when compared with control (4679).
• Hypertension. There is limited evidence on the oral use of riboflavin for reducing blood pressure in patients with the MTHFR 677 TT genotype. Details: A 677 C to T polymorphism on the MTHFR gene has been associated with hypertension. In patients with a confirmed MTHFR 677 TT genotype and premature cardiovascular disease, preliminary clinical research suggests that taking riboflavin 1.6 mg daily for 16 weeks reduces systolic blood pressure (SBP) by 9 mmHg and diastolic blood pressure (DBP) by 6 mmHg when compared with placebo . This decrease in blood pressure is larger than that reported in other trials, which may be due to the fact that only patients with the 677 TT genotype were included. These patients seem to respond to riboflavin therapy more so than patients with 677 CC or 677 CT genotype (92102). Additional clinical research in patients with the 677 TT genotype but without cardiovascular disease shows that taking riboflavin 1.6 mg daily for 16 weeks reduces SBP by 5.6 mmHg but does not reduce DBP (92103). There is also interest in using dietary riboflavin for reducing the onset of hypertension. Some epidemiological evidence in a Chinese population has found that increased dietary intake of riboflavin is associated with a reduced risk of developing hypertension (105483).
• Liver cancer. Oral riboflavin has only been evaluated in combination with niacin; its effect when used alone is unclear. Details: Preliminary clinical research in Chinese individuals older than 55 years shows that taking riboflavin in combination with niacin does not seem to prevent liver cancer mortality when compared with control. However, there was a reduced risk of liver cancer mortality in people aged less than 55 years when compared with control (63470).
• Lung cancer. Oral riboflavin has only been evaluated in combination with niacin; its effect when used alone is unclear. Details: Preliminary clinical research in Chinese individuals shows that taking riboflavin in combination with niacin does not appear to reduce the risk of lung cancer when compared with control (34539).
• Malaria. Oral riboflavin has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: Preliminary clinical research in children ages 5-14 years living in Gambia and at high risk for malaria exposure suggests that taking riboflavin, in combination with iron, thiamine, and vitamin C, for 3 months does not reduce the frequency or severity of malaria infections when compared with placebo (56730).
• Malnutrition. There is limited evidence on the oral use of riboflavin with other ingredients in children at risk for kwashiorkor. Details: A clinical study in Malawian children at risk for kwashiorkor, a severe form of malnutrition, suggests that taking riboflavin, vitamin E, selenium, and N-acetyl cysteine at a dose of three times the recommended dietary allowance does not prevent kwashiorkor, reduce edema, increase physical growth, or reduce infection when compared with placebo (71433).
• Mitochondrial myopathies. Although there is interest in using oral riboflavin for mitochondrial myopathies, there is insufficient reliable information about the clinical effects of riboflavin for this condition.
• Multiple sclerosis (MS). It is unclear if oral riboflavin slows the progression of MS-related disability. Details: A small clinical study in patients with relapsing-remitting MS or secondary progressive MS who are undergoing treatment with disease-modifying therapies suggests that taking oral riboflavin 10 mg daily for six months is no more effective for improving disability than placebo (91752). The validity of this finding is limited by the small study sample size.
• Oral leukoplakia. It is unclear if oral riboflavin prevents or slows progression of oral leukoplakia. Details: Population research in people living in Uzbekistan has found that low blood levels of riboflavin are associated with an increased prevalence of oral leukoplakia (71502). However, clinical evidence in patients with a high occurrence of oral and esophageal cancer who are living in Uzbekistan suggests that taking riboflavin 80 mg weekly for 20 months does not improve the prevalence or progression of oral leukoplakia when compared to baseline (71565). The validity of this finding is limited by the lack of a placebo group and unusual once weekly dosing. Furthermore, it is unclear if these results are generalizable to other geographic locations.
• Pre-eclampsia. Although there is interest in using oral riboflavin for pre-eclampsia, there is insufficient reliable information about the clinical effects of riboflavin for this purpose.
• Pregnancy-related iron deficiency. It is unclear if oral riboflavin is beneficial in patients with iron deficiency due to pregnancy. Details: Preliminary clinical research in pregnant patients in China suggests that adding riboflavin 1 mg daily to supplemental iron and folic acid does not improve iron status when compared with taking iron and folic acid alone (71480).
• Sickle cell disease. It is unclear if oral riboflavin is beneficial in patients with sickle cell disease. Details: One small clinical study in patients with sickle cell disease suggests that taking riboflavin 5 mg twice daily for 8 weeks increases serum iron and transferrin saturation when compared to baseline; however, riboflavin does not seem to improve serum ferritin or circulating hemoglobin levels (71566).
• Stroke. Oral riboflavin has only been evaluated in combination with niacin; its effect when used alone is unclear. Details: Preliminary clinical research in Chinese individuals with poor nutritional status who are at risk for stroke suggests that taking riboflavin 5.2 mg daily in combination with niacin 40 mg daily does not reduce the risk of stroke-related mortality (2673). More evidence is needed to rate riboflavin for these uses.

(Read more about RIBOFLAVIN)

EFFECTIVE

• Thiamine deficiency. Oral thiamine prevents and treats thiamine deficiency syndromes. Details: Thiamine deficiency is treated with oral thiamine 5-30 mg daily as a single dose or in divided daily doses for one month. For severe deficiency, thiamine up to 300 mg daily can be used (15).Thiamine deficiency can occur in people with malabsorption conditions such as alcohol use disorder, cirrhosis, and gastrointestinal diseases; in those with inadequate intake due to anorexia, nausea, and vomiting; and in those with increased requirements, including pregnancy, increased carbohydrate intake, increased physical activity, hyperthyroidism, infection, and liver disease. However, deficiency is rare with these conditions (15). The elderly might also be at increased risk for subclinical thiamine deficiency (11076).
• Wernicke-Korsakoff syndrome (WKS). Parenteral thiamine is effective for treating symptoms of WKS. Details: Parenteral administration of thiamine 5-200 mg daily for 2 days decreases the risk of developing WKS and decreases symptoms of WKS in acute alcohol withdrawal. Between 30% and 80% of alcoholics are suspected to have thiamine deficiency (11075). An optimal dose for treating WKS has not been established; however, early research suggests that a 200 mg intramuscular dose may be more effective than lower doses (11075). In contrast, a moderate-sized clinical trial in adults with a history of heavy alcohol use who were asymptomatic or symptomatic for WKS shows that there is no benefit to administering high doses (300 mg 3 times daily) compared with medium (100 mg 3 times daily) or low (100 mg daily) doses of parenteral thiamine on cognitive or neurological functioning (111690). The study may have been inadequately powered to detect a difference between groups.

POSSIBLY EFFECTIVE

• Dysmenorrhea. Oral thiamine might reduce pain in some patients with dysmenorrhea. Details: A clinical study in adolescent Iranian females with dysmenorrhea shows that taking thiamine 100 mg alone or along with fish oil 500 mg daily for 2 months moderately reduces pain intensity and duration when compared with placebo (89341). Another preliminary clinical study in Indian females 12-21 years of age with moderate to severe primary dysmenorrhea shows that taking thiamine 100 mg daily for 90 days eliminates pain in 87% of participants when compared to baseline (77820). The validity of this finding is limited by the lack of a placebo group. Furthermore, available research was conducted in India and Iran, so it is unclear if these findings are generalizable to other geographic locations.

POSSIBLY INEFFECTIVE

• Coronary artery bypass graft (CABG) surgery. Intravenous thiamine does not seem to improve outcomes after CABG surgery. Details: A small clinical study in adults undergoing CABG surgery with cardiopulmonary bypass shows that giving intravenous thiamine 200 mg immediately prior to surgery and immediately after surgery does not improve clinical outcomes or lactate levels when compared with placebo (97010). Larger doses of thiamine also don't seem to be beneficial. Another small clinical study in patients receiving CABG with cardiopulmonary bypass shows that giving thiamine 600 mg intravenously on the day of surgery, and 400 mg daily for three postoperative days, does not improve postoperative outcomes when compared with placebo (103000).
• Heart failure. Most research suggests that oral or intravenous thiamine does not improve outcomes in patients with heart failure. Details: Observational research suggests that having heart failure is associated with 2.5-fold increased odds of having thiamine deficiency, possibly because of diuretic use, intestinal malabsorption, and metabolism changes. However, it is unclear if thiamine supplementation is beneficial. A meta-analysis of 2 small clinical trials in adults with systolic heart failure and unclear thiamine status shows that thiamine 200-300 mg given orally or by IV for 7-28 days improves left ventricular ejection fraction (LVEF) by 3% when compared with control (97012). However, other meta-analyses and clinical studies in adults with heart failure with or without thiamine deficiency show that taking intravenous, intramuscular, or oral thiamine 100-500 mg daily does not improve LVEF fraction, left ventricular end-diastolic volume, dyspnea, mortality, hospitalization, or exercise tolerance when compared with placebo or control (103002,111682,111686,111688).
• Mosquito repellent. Oral thiamine does not seem to repel mosquitos. Details: Clinical research in healthy volunteers shows that taking thiamine does not improve mosquito repellency when compared with taking vitamin C as a control (18016).
• Sepsis. Intravenous or oral thiamine, alone or in combination with vitamin C and hydrocortisone, does not seem to reduce mortality or prevent organ failure in sepsis or septic shock. Details: Multiple meta-analyses of small clinical studies in patients with septic shock show that intravenous or oral thiamine 100-500 mg 2-3 times daily for 3-7 days is no better than placebo for improving mortality, end-organ damage, number of ventilator-free days, and duration of intensive care unit (ICU) stay (105443,107717,107727,111689). One meta-analysis suggests that administration of thiamine alone increases the risk of mortality in these patients (111689). Subgroup analyses including only higher quality studies also fail to show a benefit of thiamine (107717). Another recent small clinical trial in patients with septic shock shows that receiving the same dose of intravenous thiamine does not increase vasopressor-free days when compared with placebo (105441). Intravenous thiamine 200 mg every 12 hours has also been evaluated in combination with intravenous vitamin C 1.5-2 grams and hydrocortisone 50-200 mg every 6-12 hours for 4-10 days (HAT therapy). While some retrospective research found HAT therapy to be beneficial (100315,102980,111689), high-quality, prospective clinical research has shown no benefit (105447,109956,111689). Meta-analyses in patients with sepsis and septic shock shows that receiving HAT therapy does not improve mortality, kidney injury, number of ventilator-free days, or ICU length of stay when compared with control (102129,104027,104028,104032,102998,105447,109956,111642,111689). Additionally, the meta-analyses suggest that HAT therapy does not reverse shock or improve sequential organ failure assessment (SOFA) scores (109556,111642). However, one meta-analysis found that HAT therapy shortened the duration of vasopressor use when compared with placebo (111642). Long-term follow up from a study in patients with sepsis-induced respiratory and/or cardiovascular dysfunction shows that receiving HAT therapy does not improve cognitive, psychological, or functional status after 6 months and, for immediate memory scores and development of posttraumatic stress disorder, HAT therapy was less beneficial when compared with placebo (111299).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Acute kidney injury (AKI). It is unclear if oral or intravenous thiamine is beneficial for treating or preventing AKI. Details: Observational research in adults admitted to the intensive care unit (ICU) with AKI has found that treatment with thiamine (dose unspecified) within the first 48 hours of admission is associated with 39% lower odds of in-hospital mortality and 28% higher odds of kidney function recovery when compared with patients that did not receive thiamine. Receiving thiamine was also associated with a 0.5-day reduction in ICU length of stay (107719).
• Anxiety. Although there is interest in using oral thiamine for anxiety, there is insufficient reliable information about the clinical effects of thiamine for this purpose.
• Cardiac arrest. It is unclear if intravenous thiamine reduces the risk of death after resuscitation from cardiac arrest. Details: A small clinical study in adults resuscitated from cardiac arrest shows that receiving intravenous thiamine 100 mg every 8 hours for 7 days does not reduce 28-day mortality when compare with a normal saline placebo (105442).
• Cardiovascular disease (CVD). It is unclear if oral thiamine is beneficial for treating or preventing CVD. Details: Population research in Korea has found that insufficient dietary thiamine intake (daily intake of less than 1.22 mg in males or 1.03 mg in females) is associated with a 16% increased odds of developing angina or myocardial infarction when compared with sufficient dietary thiamine. However, the effects of thiamine supplementation on CVD have not been studied (107725).
• Cataracts. Small studies suggest that increased dietary thiamine might help prevent cataracts. Details: Observational research has found that a high dietary intake of thiamine 10 mg daily is associated with 40% lower odds of nuclear cataracts (6378). Other population research has found that higher dietary intake of thiamine is associated with a modestly reduced risk of age-related lens opacification (14301).
• Cervical cancer. It is unclear if oral thiamine reduces the risk of developing cervical cancer. Details: Epidemiological research has found that increasing intake of thiamine from dietary and supplemental sources, along with folic acid, riboflavin, and vitamin B12, is associated with a lower odds of precancerous cervical lesions (11074).
• Child development. It is unclear if supplementing breastfeeding females with oral thiamine improves infant neurocognitive development. Details: Preliminary clinical research shows that supplementing breastfeeding females with oral thiamine, 1.2-10 mg daily for 22 weeks, starting at 2 weeks postpartum, does not improve most cognitive or neurodevelopmental scores in the child when compared with placebo. However, one subgroup analysis suggests that thiamine supplementation may improve language scores (107726).
• Cognitive function. Oral thiamine has only been studied in combination with other ingredients; its effect when used alone is unclear. Details: A moderate-sized clinical study in healthy, middle-aged adults shows that taking a combination product containing thiamine hydrochloride 50 mg, other group B vitamins, bacopa, and ginkgo daily for 12 weeks does not improve measures of memory, attention, cognition, mood, or stress reactivity when compared with placebo. Subgroup analysis shows a possible benefit of the combination supplementation on measures of attention in those with an optimal diet at baseline (111334). It is unclear if these findings are due to thiamine, other ingredients, or the combination.
• Coronavirus disease 2019 (COVID-19). It is unclear if intravenous or oral thiamine improves clinical outcomes in patients hospitalized with COVID-19. Details: A small observational study of adults admitted to the intensive care unit with COVID-19 has found that treatment with intravenous or oral thiamine 100 mg daily for an average of 7 days is associated with a 63% reduction in the odds of death within 30 days when compared with control. However, there was no associated reduction in duration of hospitalization or mechanical ventilation (107721). In addition, a small observational study of adults with encephalopathy that were mechanically ventilated secondary to COVID-19 has found that taking thiamine 500 mg three times daily orally for 5 days improves neurological manifestations, including ophthalmoparesis and ataxia, when compared with baseline. The validity of this study is limited by the lack of a comparator group (107722).
• Critical illness (trauma). It is unclear if oral or intravenous thiamine is beneficial in patients with critical illness. Details: A meta-analysis of critically ill patients shows that treatment with oral or intravenous thiamine 100-600 mg daily for up to 7 days does not affect the need for mechanical ventilation, duration of hospital stay, or mortality when compared with control (107727).
• Delirium. It is unclear if oral or intravenous thiamine helps to prevent or treat delirium. Details: In critically ill patients, a meta-analysis of clinical research shows that treatment with oral or intravenous thiamine 100-600 mg daily for up to 7 days reduces the odds of developing delirium by 42% when compared with control (107727). However, some observational research in adults with septic shock has found that receiving intravenous thiamine 400 mg daily with vitamin C 6 grams daily, both in divided doses, is not associated with reduced delirium when compared with control (103001). In non-critically ill, hospitalized adults with altered mental status, retrospective, observational research has also found that administration of oral or intravenous thiamine is not associated with improved cognitive function or reduced in-hospital mortality when compared with control (107723). Preliminary clinical research in adults undergoing an allogeneic hematopoietic stem cell transplant also shows that administering thiamine 200 mg three times a day intravenously for 7 days does not prevent delirium or shorten duration of delirium when compared with placebo (107718).
• Dementia. It is unclear if oral thiamine is beneficial for the prevention of dementia. Details: Observational research in patients with alcohol use disorder has found that taking thiamine is associated with a 24% to 46% lower risk of developing dementia when compared with not taking thiamine (102999).
• Depression. It is unclear if oral thiamine is beneficial in patients with depression. Details: Meta-analyses of population research in adults has found that high dietary consumption of thiamine is associated with a 10% to 31% lower risk of having depression when compared with low dietary consumption of thiamine. However, this research did not evaluate the effects of thiamine supplementation on depression (107133,107725). One small clinical study in adults with major depressive disorder shows that taking thiamine 300 mg daily in conjunction with fluoxetine 20 mg daily leads to greater improvements in depressive symptoms at 6 weeks when compared to fluoxetine with placebo. This benefit was no longer present at 12 weeks. This suggests that thiamine may accelerate improvement in symptoms during initiation of fluoxetine therapy (97013).
• Diabetes. It is unclear if oral thiamine is beneficial for type 2 diabetes or gestational diabetes. Details: A meta-analysis of 6 clinical studies in adults with type 2 diabetes shows that taking thiamine 100-300 mg or its derivative benfotiamine 120-900 mg daily for 1-3 months does not reduce glycated hemoglobin (HbA1c), fasting blood glucose, or postprandial blood glucose when compared with placebo (111681). A large, prospective cohort study in adults without type 2 diabetes suggests that the risk of new-onset diabetes is minimized in adults consuming thiamine 0.75-1.10 mg daily from the diet, while lower and higher thiamine intake levels are associated with an increased risk of new-onset diabetes (111685). Thiamine has also been studied for preventing gestational diabetes. A large, prospective cohort study in pregnant adults suggests that higher supplementation with thiamine during the first and second trimesters is associated with a lower risk of gestational diabetes when compared with lower levels of total thiamine intake. However, this effect was not found for dietary intake of thiamine, only supplementation. Additionally, the participants were mostly Han Chinese adults, limiting the generalizability of the findings to other populations (111680).
• Diabetic nephropathy. It is unclear if oral thiamine is beneficial for diabetic nephropathy. Details: A small clinical study in patients with early-stage diabetic nephropathy and microalbuminuria shows that taking thiamine 100 mg three times daily for 3 months decreases urinary albumin excretion, but does not affect glomerular filtration rate (GFR), when compared with placebo (16556).
• Diabetic neuropathy. Although there is interest in using oral thiamine for diabetic neuropathy, there is insufficient reliable information about the clinical effects of thiamine for this condition.
• Dry eye. Oral thiamine has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: A small clinical study in patients with dry eye suggests that adding unspecified doses of thiamine and mecobalamin to treatment with daily artificial tears and corticosteroid drops might slightly improve overall symptoms when compared with only artificial tears and corticosteroid drops for 1 month. There were no differences between groups at 2 months (105444). This finding is limited due to incomplete reporting and a lack of adjustment for multiple hypothesis testing.
• Dyslipidemia. It is unclear if oral thiamine is beneficial for treating or preventing dyslipidemia. Details: A meta-analysis of 3 clinical studies in adults with type 2 diabetes shows that taking thiamine 100-300 mg or its derivative benfotiamine 120-900 mg daily for 1-3 months does not improve low-density lipoprotein (LDL) cholesterol, high-density lipoprotein (HDL) cholesterol, or triglycerides when compared with placebo (111681). Observational research in Korea suggests that insufficient dietary thiamine intake (daily intake of less than 1.22 mg in males or 1.03 mg in females) is associated with 10% higher odds of developing dyslipidemia when compared with sufficient dietary thiamine intake. However, the effects of thiamine supplementation on dyslipidemia have not been studied (107725).
• Emergence delirium. It is unclear if intravenous thiamine helps to prevent emergence delirium in patients after surgery. Details: One clinical study in adults in the intensive care unit (ICU) after gastrointestinal surgery shows that receiving intravenous thiamine 200 mg daily for 3 days is associated with up to 84% lower odds of emergence delirium on the first two days, but not on the third day, when compared with a normal saline control (105440).
• Fatigue. It is unclear if oral thiamine is beneficial in patients with fatigue. Details: A small clinical crossover study in patients with chronic fatigue and inflammatory bowel disease (IBD) shows that taking thiamine 600-1800 mg daily for 20 days reduces fatigue scores when compared with placebo (105438). Taking oral thiamine 300 mg daily for an additional 12 weeks did not seem to affect fatigue scores when compared with placebo. However, an observational follow-up study found that those who self-continued thiamine for an additional 24 weeks after the study ended reported lower fatigue scores when compared with those who did not self-continue thiamine (107720).
• Glaucoma. Although there is interest in using oral thiamine for glaucoma, there is insufficient reliable information about the clinical effects of thiamine for this condition.
• Herpes zoster (shingles). It is unclear if subcutaneous thiamine is beneficial in patients with shingles. Details: A small clinical trial shows that receiving subcutaneous thiamine 100 mg injections six times weekly for 4 weeks reduces itching by at least 30% in 67% of patients with herpes zoster. However, thiamine does not appear to significantly reduce pain in most patients (90396).
• Hypertension. It is unclear if oral thiamine is beneficial in treating or preventing hypertension. Details: Population research in Korea has found that insufficient dietary thiamine intake (daily intake of less than 1.22 mg in males or 1.03 mg in females) is associated with a 5% increased odds of developing hypertension when compared with sufficient dietary thiamine. However, the effects of thiamine supplementation on hypertension have not been studied (107725).
• Impaired glucose tolerance (prediabetes). It is unclear if oral thiamine is beneficial in patients with prediabetes. Details: A very small clinical trial in patients with prediabetes shows that taking thiamine 100 mg by mouth three times daily for 6 weeks modestly decreases 2-hour postprandial plasma glucose levels when compared to baseline and decreases fasting blood glucose levels when compared with placebo (91168).
• Kidney failure. Oral thiamine has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: Preliminary, low-quality, clinical research in adults with kidney failure undergoing regular hemodialysis shows that taking oral thiamine 90 mg daily with folic acid 30 mg daily for 96 weeks reduces overall mortality by 67% and improves cognitive scores by 31% when compared with no intervention (107724). It is unclear if this effect is due to thiamine, folic acid, or the combination.
• Migraine headache. It is unclear if dietary thiamine is beneficial for the prevention or treatment of migraine headache. Details: A large, retrospective, cross-sectional study suggests that higher dietary intake of thiamine is associated with lower odds of severe headache or migraine, especially in females (111684). The validity of these effects is limited by the subjective outcome measures and retrospective study design.
• Pneumonia. It is unclear if thiamine is beneficial for patients with pneumonia. Details: A large retrospective cohort study in adults hospitalized with pneumonia and active alcohol use disorder suggests that parenteral administration of thiamine is associated with reduced 14-day mortality and more frequent discharges home, but not a shorter length of stay or fewer ICU transfers, when compared with no thiamine use. Furthermore, parenteral thiamine doses above 200 mg do not appear to improve mortality but may be associated with longer length of stay and less frequent discharges home when compared with low oral doses of thiamine or parenteral thiamine at doses under 200 mg (111679). The validity of these effects is limited by the retrospective study design.
• Ventilator-associated pneumonia (VAP). It is unclear if oral or parenteral thiamine is beneficial for patients with VAP. Details: A retrospective study in adults with VAP in the intensive care unit (ICU) suggests that supplementation with intravenous or oral thiamine may be associated with reduced ICU and in-hospital mortality (111683). The validity of these effects is limited by the retrospective study design. More evidence is needed to rate thiamine for these uses.

(Read more about THIAMINE)

POSSIBLY SAFE ...when used orally and appropriately, short-term (7845,16117). A specific dried, inactive brewer's yeast preparation (EpiCor, Embria Health Sciences) has been used with apparent safety at a dose of 500 mg once daily for 12 weeks (92821,92822). A specific living brewer's yeast strain CNCM I-3856 has been used with apparent safety at a dose of 500-1000 mg daily (standardized to 8 billion colony-forming units per gram) for up to 12 weeks (95611,105170,111108). There is insufficient reliable information available about the safety of the long-term use of brewer's yeast or about the safety of using brewer's yeast topically.

CHILDREN:
There is insufficient reliable information available about the safety of brewer's yeast as a probiotic or postbiotic in children of any age. Cases of bacteremia have occurred rarely in preterm infants given other probiotics (102416,111610,111612,111613,111850,111852,111853). The US Food and Drug Administration (FDA) has issued a warning about cases of serious infections caused by probiotics reported in very preterm or very low birth weight infants under 1000 grams (111610). Similarly, the American Academy of Pediatrics does not support the routine administration of probiotics to these infants due to conflicting data on safety and efficacy (111608).

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

(Read more about BREWER'S YEAST)

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.

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LIKELY SAFE ...when used orally and appropriately. Riboflavin 400 mg daily has been taken for up to 3 months, and 10 mg daily has been taken safely for up to 6 months (4912,91752,105480). A tolerable upper intake level (UL) has not been established (3094,91752,94089).

CHILDREN: LIKELY SAFE
when used orally and appropriately in dietary amounts. A tolerable upper intake level (UL) has not been established (3094,94089). ...when used orally in higher doses for up to 1 year. Doses of 100-200 mg daily have been used safely for 4-12 months in children ages 9-13 years (71483,105484).

PREGNANCY AND LACTATION: LIKELY SAFE
when used orally and appropriately in dietary amounts. A tolerable upper intake level (UL) has not been established (3094,94089).

(Read more about RIBOFLAVIN)

LIKELY SAFE ...when used orally and appropriately. A tolerable upper intake level (UL) has not been established for thiamine, and doses up to 50 mg daily have been used without adverse effects (15,6243). ...when used intravenously or intramuscularly and appropriately. Injectable thiamine is an FDA-approved prescription product (15,105445).

CHILDREN: LIKELY SAFE
when used orally and appropriately in dietary amounts. A tolerable upper intake level (UL) has not been established for healthy individuals (6243).

PREGNANCY AND LACTATION: LIKELY SAFE
when used orally in dietary amounts of 1. 4 mg daily. A tolerable upper intake level (UL) has not been established for healthy individuals (3094,6243).

(Read more about THIAMINE)

ANTIDIABETES DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = B Taking brewer's yeast with antidiabetes drugs might increase the risk of hypoglycemia.  Details Clinical research shows that taking chromium-containing brewer's yeast can decrease levels of blood glucose in diabetic patients being treated with antidiabetes drugs (37157).

ANTIFUNGALS Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, taking antifungals with some brewer's yeast products might decrease the effectiveness of brewer's yeast.  Details Some brewer's yeast products contain live yeast. Therefore, simultaneously taking antifungals might kill a significant number of the organisms (4363).

LITHIUM Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, taking brewer's yeast with lithium might cause additive effects and side effects.  Details Some brewer's yeast products contains lithium (37179).

MONOAMINE OXIDASE INHIBITORS (MAOIs) Interaction Rating = Major Do not take this combination. Severity = Moderate •  Occurrence = Likely •  Level of Evidence = D Theoretically, taking brewer's yeast with MAOIs might increase the risk of hypertension.  Details Brewer's yeast contains tyramine. Taking brewer's yeast with MAOIs might increase the risk for hypertensive crisis (2).

(Read more about BREWER'S YEAST)

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)

TETRACYCLINE ANTIBIOTICS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, taking riboflavin with tetracycline antibiotics may decrease the potency of these antibiotics.  Details In vitro research suggests that riboflavin may inhibit the potency of tetracycline antibiotics (23372). It is not clear if this effect is clinically significant, as this interaction has not been reported in humans.

(Read more about RIBOFLAVIN)

TRIMETHOPRIM (Proloprim) Interaction Rating = Minor Be watchful with this combination. Severity = Insignificant •  Occurrence = Probable •  Level of Evidence = B Trimethoprim might increase blood levels of thiamine.  Details In vitro, animal, and clinical research suggest that trimethoprim inhibits intestinal thiamine transporter ThTR-2, hepatic transporter OCT1, and renal transporters OCT2, MATE1, and MATE2, resulting in paradoxically increased thiamine plasma concentrations (111678).

(Read more about THIAMINE)

General ...Orally, brewer's yeast seems to be well tolerated in most patients when used short-term.
Most Common Adverse Effects:
Orally: Flatulence, migraine.
Serious Adverse Effects (Rare):
Orally: There is concern that brewer's yeast may cause fungemia in some people. It may also cause anaphylaxis in sensitive individuals.

Gastrointestinal ...Orally, brewer's yeast can cause intestinal discomfort and flatulence in hypersensitive individuals (2). Anal irritation and abdominal pain have been reported rarely (105170).

Immunologic ...Allergic reactions to brewer's yeast can occur in hypersensitive individuals. Symptoms include itching, urticaria, local or general exanthemas, and Quincke's edema (2). Rarely, anaphylaxis may occur. In one case, a 33-year-old male experienced dyspnea, chest tightness, and throat tightness shortly after ingesting a few sips of craft beer brewed using brewer's yeast. The patient took diphenhydramine, and symptoms improved prior to his arrival in the emergency department. While the patient had no history of hypersensitivity to other beers from the same brewery, a positive skin test and oral challenge suggested that he was sensitive to the specific strain of brewer's yeast uniquely used only in the offending beer (111107).

Neurologic/CNS ...Orally, brewer's yeast can cause migraine-like headaches in sensitive individuals (2).

(Read more about BREWER'S YEAST)

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, riboflavin is generally well tolerated.
Most Common Adverse Effects:
Orally: Dose-related nausea and urine discoloration.

Gastrointestinal ...Orally, riboflavin has been associated with rare diarrhea and dose-related nausea (1398,71483). In one clinical study, one subject out of 28 reported having diarrhea two weeks after starting riboflavin 400 mg daily (1398).

Genitourinary ...Orally, high doses of riboflavin can cause bright yellow urine. Furthermore, in one clinical study, one subject out of 28 reported polyuria two weeks after starting riboflavin 400 mg daily (1398,3094).

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General ...Orally and parenterally, thiamine is generally well tolerated.
Serious Adverse Effects (Rare):
Parenterally: Hypersensitivity reactions including angioedema and anaphylaxis.

Immunologic ...Orally, thiamine might rarely cause dermatitis and other allergic reactions. Parenterally, thiamine can cause anaphylactoid and hypersensitivity reactions, but this is also rare (<0.1%). Reported symptoms and events include feelings of warmth, tingling, pruritus, urticaria, tightness of the throat, cyanosis, respiratory distress, gastrointestinal bleeding, pulmonary edema, angioedema, hypotension, and death (15,35585,105445).
In one case report, a 46-year-old female presented with systemic allergic dermatitis after applying a specific product (Inzitan, containing lidocaine, dexamethasone, cyanocobalamin and thiamine) topically by iontophoresis; the allergic reaction was attributed to thiamine (91170).

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