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Alpha hydroxy acids represent a group of natural chemicals that are used alone or in combination. See specific monographs for effectiveness information.

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POSSIBLY EFFECTIVE

• Hepatic encephalopathy. Oral and intravenous BCAAs improve symptoms and nutritional status in patients with hepatic encephalopathy, especially in those not tolerating protein supplementation. Details: Taking BCAAs 240 mg/kg (up to 25 grams) daily in 3 divided doses for up to 3 months can improve symptoms, liver function tests, and nitrogen balance in patients with chronic hepatic encephalopathy (68,69,82,690,92643,97531). Oral BCAAs are recommended for malnourished patients with chronic hepatic encephalopathy who cannot tolerate protein supplementation (69,4274). When the enteral route is unavailable and when patients cannot tolerate general purpose amino acid solutions, intravenous solutions with BCAAs can be used for nutritional support; however, most patients can tolerate standard amino acid mixtures (4274). Some clinical research also suggests that taking BCAAs orally improves psychomotor function, attention, intelligence, and driving ability in patients with latent hepatic encephalopathy (684,685,37131,97531). However, not all studies show a positive effect of BCAAs on psychometric outcomes (37135). There is also some preliminary evidence that intravenous BCAAs might be helpful for reversing coma in acute hepatic encephalopathy, although findings are conflicting (66,81,686,687,688,689,4274,37134). BCAAs do not appear to reduce the risk of mortality or improve quality of life in patients with hepatic encephalopathy (92643,97531).
• Tardive dyskinesia. Oral BCAAs might reduce symptoms of tardive dyskinesia precipitated by antipsychotic drugs. Details: Taking BCAAs orally seems to reduce symptoms of tardive dyskinesia (72,10146,13307). Clinical research in adult and pediatric patients who are taking antipsychotic drugs shows that taking a drink containing BCAAs 222 mg/kg three times daily for 3 weeks reduces tardive dyskinesia movements by 30% to 60% when compared with placebo (10146,13307).

POSSIBLY INEFFECTIVE

• Liver cancer. Oral BCAAs do not seem to improve outcomes or reduce the risk for recurrence in patients with liver cancer. Details: A meta-analysis of the available clinical research, as well as individual clinical studies, in patients with hepatocellular carcinoma show that consuming up to 50 grams of BCAAs twice daily for up to 4 years does not improve survival, reduce tumor recurrence, or reduce the risk of complications such as ascites following liver resection when compared with a control group receiving no intervention (37143,92646,97532,105578). However, one small clinical study suggests that BCAAs may be beneficial in patients recently diagnosed with hepatocellular carcinoma that does not require surgery. Taking two packets of a specific supplement (Aminoleban EN) daily containing a total of L-leucine 4 grams, L-isoleucine 3.8 grams, and L-valine 3.2 grams, starting two weeks before receiving transcatheter arterial chemoembolization and radiofrequency ablation and continuing for up to 5 years, reduces recurrence of liver cancer and increases event-free survival when compared with placebo (97533). However, the validity of these findings is limited by the high withdrawal rate in this study.

LIKELY INEFFECTIVE

• Amyotrophic lateral sclerosis (ALS, Lou Gehrig's disease). Overall, oral BCAAs are not beneficial and might even lead to worsened outcomes in patients with ALS. Details: Although early studies have indicated that taking BCAAs might be beneficial in ALS, more recent studies show no benefit and a possible increased loss of pulmonary function and higher rate of mortality among patients using BCAAs (678,679,680,681,37154).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Alzheimer disease. It is unclear if dietary BCAAs prevent Alzheimer disease. Details: Observational research has found that higher blood levels of BCAAs are associated with an 11% to 13% lower risk of Alzheimer disease; however, when research was adjusted for mortality, body mass index, and concomitant cholesterol-lowering medications, the association was no longer significant (100469).
• Athletic performance. Small clinical trials suggest that although oral BCAAs may not enhance athletic performance, they may modestly reduce perceived exertion and fatigue with some forms of exercise. Details: In most studies, taking BCAAs orally does not enhance athletic performance (692,1135,37080,37094,37106,37123,37141,37142,37151,92641). For instance, BCAAs do not appear to improve strength or work power or to reduce completion times for long-distance running or cycling trials (692,37106,37112,37141,37142,92641). However, most research shows that BCAAs are beneficial for reducing exercise-induced fatigue and perceived exertion after prolonged or intense exercise, exercise in the heat, or exercise following glycogen depletion (692,37112,37124,37144,92642,92644,92645,92648,97529,97530)(97535,105582). In many cases, this improvement is observed when BCAAs are taken in combination with arginine, citrulline, or green tea powder (37124,92642,92645,92648,97529,100462). However, some conflicting evidence exists (1135,37080,37094). Overall, the validity of these findings is limited because most studies differ widely in the amount and type of product consumed. For example, studied doses included BCAAs 0.17-0.3 mg/kg daily; or valine 0.5-1.7 grams, leucine 1-3.5 grams, and isoleucine 0.48-2.1 grams given before and/or after exercise (37108,37123,92642,92644,92645). Other limitations include variability in the studied endpoints and control comparisons used.
• Bipolar disorder. It is unclear if oral BCAAs are beneficial in patients with bipolar disorder. Details: One small clinical study shows that consuming a tyrosine-free amino acid drink containing 60 grams of the BCAAs leucine, isoleucine, and valine in a ratio of 3:3:4, reduces acute manic symptoms within 6 hours when compared with placebo. When taken daily for 7 days, it seems to continue to improve symptoms over a 2-week period (10117).
• Cachexia. Small clinical studies suggest that oral BCAAs are beneficial in patients with cachexia from various causes. Details: Preliminary clinical research in elderly malnourished patients receiving hemodialysis shows that taking a combination of BCAAs 4 grams three times daily improves appetite and caloric intake and increases plasma albumin levels and anthropometric measurements when compared with placebo (10147). Also, small clinical studies in adults with cachexia due to cancer or cirrhosis show that taking oral BCAAs 2.4 grams twice daily for 1 year or 4.8 grams 3 times daily for 1 week might be helpful when compared to baseline (71,37090). This finding is limited by the lack of a comparator group. A small clinical study in adults with congestive heart failure who have lost at least 7.5% of dry weight over the past 6 months or have a body mass index below 20 kg/m² shows that taking BCAAs 10 grams every evening at bedtime for 8 weeks improves physical and emotional quality of life scores, appetite, and fatigue when compared with placebo. Patients taking melatonin 20 mg nightly in addition to BCAA supplementation observed greater improvements in appetite and fatigue when compared with placebo (108478). However, a statistical comparison of outcomes between the groups taking BCAA alone or BCAA with melatonin was not provided.
• Cancer. It is unclear if dietary BCAA consumption improves cancer-related mortality. Details: Observational research in adults has found that consuming BCAAs 19 grams or more daily as part of the diet is not associated with a reduced risk of cancer-related mortality when compared with a lower dietary BCAA intake of less than 7.8 grams daily (108467). The validity of this finding is limited due to unclear reporting; additionally, dietary intake was recorded from a single survey.
• Cardiovascular disease (CVD). It is unclear if dietary BCAA consumption reduces the risk of CVD-related mortality. Details: Observational research in adults has found that CVD-related mortality is not associated with dietary BCAA intake or with individual leucine, isoleucine, or valine intake (108467). The validity of this meta-analysis is limited due to unclear reporting; additionally dietary intake was recorded from a single survey.
• Chronic obstructive pulmonary disease (COPD). It is unclear if oral BCAAs can improve physical performance in adults with COPD. Details: A clinical study in adults with stable, stage 2 or 3 COPD undergoing a pulmonary rehabilitation program shows that taking a BCAA powder 4.3 grams, diluted in water and consumed once daily for 4 weeks, may improve recovery after exercise, but does not impact maximal exercise capacity, functional and muscular performance, or quality of life when compared with placebo (108464). The validity of these findings is limited due to the short duration of treatment.
• Cirrhosis. Most small studies suggest that BCAAs may modestly improve certain measures in some patients with liver cirrhosis. Details: One small clinical study shows that although taking BCAAs 14.4 grams daily for 12 months does not improve survival or liver function in patients with advanced liver cirrhosis, the number of hospitalizations and prevalence of cachexia are reduced and quality of life is improved when compared with control or whey protein (37090). A clinical study in patients with sarcopenia and liver cirrhosis shows that taking BCAAs 7.2 grams for 6 months decreases bilirubin levels and improves Child-Turcotte-Pugh and model for end-stage liver disease (MELD) scores when compared with baseline (108468). Although the study enrolled a control group (whey protein), the investigators did not provide a statistical comparison of outcomes between groups. In addition, a small study in Japanese patients with cirrhosis shows that taking BCAAs 12.45 grams daily for at least 12 months improves liver function and reduces liver complications by 50% to 60% over 3-5 years when compared with control (37120). Also, taking a specific product (Livact, Samil Pharmaceutical) providing the same dose for 11-22 months improves liver function by a small to moderate amount over a 24-month period when compared with not taking BCAAs. There was also a moderate reduction in the rate of developing or worsening major complications such as ascites or hepatic encephalopathy (103351). However, some research providing BCAAs as part of a late evening snack has found no benefit. In one small study, consuming BCAAs as part of a late evening snack in an undefined dose for 3 months does not seem to improve quality of life when compared with a late evening snack without BCAAs (37101). Also, a very small clinical study in patients with abnormal glucose metabolism related to cirrhosis shows that consuming BCAAs in an undefined dose as part of a late evening snack for 1 week does not improve glycemic control when compared with baseline. Instead, glucose levels increased in some patients (103348). It is possible that the doses provided in these latter studies were lower than those used in the studies showing benefit. Additionally, these very small studies may not have been adequately powered to detect a difference between groups.
• Colorectal cancer. It is unclear if dietary BCAAs are beneficial or harmful in patients with colorectal cancer. Details: An observational study in Italy has found that increased dietary intake of BCAAs is associated with a lower risk of developing sigmoid colon cancer, but not overall colorectal cancer risk, when compared with lower intake (105584). However, there's some concern that increased dietary BCAAs may have negative effects in patients who have been diagnosed with colorectal cancer. Observational research in patients living in the US has found that higher dietary intake of BCAAs is associated with a slightly higher risk of all-cause mortality when compared with lower intake (105581).
• Dementia. It is unclear if dietary BCAAs help to prevent dementia. Details: Observational research has found that higher blood levels of BCAAs are associated with a 13% to 17% lower risk of dementia. The lowered risk was maintained when research was adjusted for mortality, body mass index, and concomitant cholesterol-lowering medications (100469).
• Diabetes. It is unclear if dietary BCAAs reduce the risk for developing diabetes. Details: Some population research in Japanese females has found a decreased risk of diabetes associated with higher intake of BCAAs (97543). However, other observational research in people from the US has found that increased dietary intake of BCAAs is associated with an increased risk of diabetes (97536). Reasons for the conflicting finding are not entirely clear. Some evidence suggests that the dietary pattern of BCAA intake, rather than the total intake, may influence the risk of diabetes. Also, there is some speculation that differences in gut microbiota may attribute to the observed differences in diabetes risk associated with BCAA intake (100465). Prospective clinical research is needed to determine whether this association is causal or correlative.
• Exercise-induced muscle damage. Small studies suggest that BCAAs might reduce some, but not all, markers of muscle damage caused by exercise. Details: A meta-analysis of small clinical studies shows that supplementation with BCAAs reduces creatine kinase (CK) levels 24 hours post-exercise, but not 48 hours post-exercise. Additionally, this analysis shows that lactate dehydrogenase (LDH) levels are not affected by BCAA supplementation (97534). The validity of this analysis was limited because baseline dietary protein consumption was not taken into consideration as a potential confounder. A separate meta-analysis of clinical research in trained male athletes performing various resistance exercises shows that taking BCAAs 0.2-1.76 grams/kg for 1-28 days improves CK levels immediately following exercise, and at 24 and 48 hours post-exercise, but does not reduce LDH levels at any timepoint, when compared with placebo or control (108469). Most doses of BCAAs studied consisted of a 2:1:1 ratio of leucine, isoleucine, and valine, respectively. The validity of these findings is limited due to the short duration of treatment and various doses studied. Small individual clinical trials show that taking BCAAs does not affect urinary myoglobin after a marathon nor plasma myoglobin or CK levels after isotonic muscular exercise (37123,92641,100471). The benefits of BCAAs might depend on baseline protein consumption. A small clinical study in resistance trained males shows that adding BCAAs 0.22 grams/kg (MusclePharm BCAA) daily for 8 days to a high daily protein consumption of 1.2 grams/kg does not attenuate muscle damage or improve muscle recovery when compared with placebo (100471). Conversely, a meta-analysis of clinical research in adults completing various exercises shows that taking BCAAs consisting of any combination of valine, leucine, and isoleucine ratios modestly reduces CK, LDH, and myoglobin 24 and 48 hours post-exercise, but does not improve muscle recovery or muscle force after exercise, when compared with placebo (108471). The validity of these findings is limited due to unclear reporting.
• Exercise-induced muscle soreness. Limited evidence suggests that oral BCAAs may modestly attenuate exercise-induced muscle soreness. Details: One meta-analysis shows that taking BCAAs does not reduce delayed-onset muscle soreness after exercise when assessed at the individual time points of 24, 48, or 72 hours (97534). However, when results of all time points are pooled together in two separate meta-analyses, supplementation modestly reduces soreness after exercise (97534,103353). Most, but not all, individual trials also show that taking BCAAs in various doses, such as 0.087 grams/kg or 5-10 grams before and/or after exercise, modestly reduces muscle soreness after exercise (37108,37123,37124,92648,97530,97535,100467,100471,103346,108471). The validity of these individual trials is limited by their small sample sizes, variable dosing regimens, and enrolled populations, which were mainly limited to young untrained adult males (97534,103353). A separate meta-analysis of clinical research in trained male athletes performing various resistance exercises shows that taking BCAAs 0.2-1.76 grams/kg for 1-28 days may improve muscle soreness during the first 24 hours after exercise, but not at 24 or 48 hours post-exercise, when compared with placebo or control (108469). The validity of these findings is limited due to the short duration of treatment and various doses studied. Also, it is not clear whether taking BCAAs before or after a workout may be more beneficial. Some research found a nonsignificant trend toward reduced muscle soreness when consuming a specific product (Aminofeel, Seikatsu Bunkasya Co. Ltd.) containing BCAAs 3.2 grams three times daily starting 3 days before working out and continuing 3 days after, when compared to control (100467). More research is needed to determine the best dosing regimen and which populations, if any, may benefit.
• Heart failure. It is unclear if oral BCAAs are beneficial in patients with heart failure. Details: A small clinical study in patients with heart failure and hypoalbuminemia shows that taking a specific packet of BCAA granules (LIVACT, Ajinomoto Co) containing L-valine 1144 mg, L-leucine 1904 mg, and L-isoleucine 952 mg, three times daily for at least 7 days and stopping after discharge from the hospital, does not affect serum albumin or cardiothoracic ratio (CTR) when compared with placebo (100470). It is possible that this study was underpowered to detect differences between groups. Another small clinical study in adults with chronic heart failure participating in a cardiac rehabilitation program shows that taking a specific oral supplement (Meiji Mei Balance Rehasupport Mini; Meiji Group) containing BCAAs 2.5 grams and various vitamins, minerals, and whey protein, twice daily for 12 weeks increases fat mass, but has no effect on peak oxygen uptake, 6-minute walking distance, or strength parameters, when compared with no supplementation (108470). It is unclear if these effects are due to BCAAs, the other ingredients, or the combination.
• Hepatitis. It is unclear if oral BCAAs are beneficial in patients with hepatitis. Details: Preliminary clinical research in patients with alcoholic hepatitis shows that taking BCAAs 20 grams daily orally or enterally for 3 weeks or until discharge, in combination with a controlled diet, does not reduce the risk of mortality when compared with conventional protein or a controlled diet alone (37133).
• Inflammatory myopathies. It is unclear if oral BCAAs are beneficial in patients with polymyositis and dermatomyositis. Details: A small clinical study in adults with suspected or confirmed polymyositis or dermatomyositis who are receiving standard corticosteroid therapy shows that a BCAA-specific product containing L-isoleucine 952 mg, L-leucine 1904 mg, and L-valine 1144 mg for 12-28 weeks, taken as two packages three times daily for a total daily dose of 24 grams, does not improve manual muscle test scores or clinical response at 12 and 28 weeks when compared with placebo (108477).
• Obesity. It is unclear of oral BCAAs can reduce the likelihood of developing obesity or improve weight loss in adults with overweight or obesity. Details: Some observational research has found that higher dietary intake of BCAAs is associated with lower odds of obesity when compared with a lower intake (100466). Conversely, a large observational study in adults in Iran, including those who are overweight or obese, has found that the highest dietary intake of BCAAs is associated with a 24% higher likelihood of general obesity in males, but not in females, when compared with the lowest dietary BCAA intake (108465). This study did not report ranges for highest and lowest BCAA intake, limiting the validity of this study. BCAAs have also been evaluated in adults with overweight or obesity. A small clinical study in obese females that underwent a 4-week calorie-restricted diet shows that taking 6 caplets daily containing a total of L-leucine 3 grams, L-isoleucine 1.5 grams, and L-valine 1.5 grams in addition to vitamin B6 40 mg daily for 4 weeks does not further reduce weight, but may slightly preserve lean body mass, when compared with placebo (100464). Another small clinical study in overweight and obese adults shows that taking BCAAs 0.1 gram/kg daily in addition to starting a low-calorie diet for 16 weeks does not improve weight loss, but may preserve lean muscle mass, when compared with taking placebo while following the low-calorie diet (105583).
• Overall mortality. It is unclear if dietary BCAA consumption reduces the risk of all-cause mortality. Details: Observational research in adults has found that total BCAA intake, as well as isoleucine intake, is associated with a reduced risk of all-cause mortality, particularly in those with higher serum triglyceride concentrations (108467). However, this association was not present for leucine or valine intake. The validity of this meta-analysis is limited due to unclear reporting; additionally dietary intake was recorded from a single survey.
• Pancreatic cancer. The association between dietary BCAA intake and pancreatic cancer risk is unclear. Details: Observational research in adults in Italy has found that consuming BCAAs as part of the diet in quantities greater than 18 grams daily is associated with a 2-fold increased risk of pancreatic cancer when compared with less than 12 grams daily. This relationship was stronger in younger males, those with higher body mass indexes, and in those who smoke or have high alcohol intake (108476). Dietary information was recorded from a single, weekly consumption questionnaire.
• Phenylketonuria (PKU). It is unclear if oral BCAAs are beneficial in patients with PKU. Details: A small clinical trial in adolescents and young adults with PKU shows that taking BCAAs, consisting of valine 150 mg/kg, isoleucine 150 mg/kg, and leucine 200 mg/kg, with meals and at bedtime for up to 6 months seems to improve attention and processing when compared with a control group (37127).
• Physical performance. It is unclear if oral BCAAs are beneficial for improving physical function and muscle strength in older adults. Details: In malnourished elderly individuals, preliminary clinical research shows that taking a supplement providing BCAAs 5000 mg daily, in addition to other amino acids, vitamin B6, and vitamin B1 (Aminotrofic) for 2 months, does not improve muscle mass, muscle strength, or physical function to a greater extent than dietary advice intended to maximize nutritional intake from food and drink (103349). Similarly, a clinical study in middle aged and elderly adults shows that a specific product (Sarcojoint; Orient Euro Pharma, Inc) containing leucine 1 gram, arginine, vitamin D3, glucosamine, chondroitin, and calcium, taken twice daily in addition to regular resistance exercise for 12 weeks, does not improve muscle strength, muscle mass, or physical performance when compared with taking an unspecified vitamin B supplement twice daily with regular exercise (108472). Conversely, one small clinical study in older adults who have had a hip replacement shows that taking BCAAs 1.2 grams and lysine 1.8 grams (Amino-aile, Ajinomoto Co., Inc.) daily for one month after undergoing exercise therapy sessions modestly increases the strength of both legs and arms when compared with taking starch. However, there was no effect on hip abductor strength of the operated leg or on grip strength or measures of independence (103347).
• Postoperative infection. There is limited evidence on the intravenous and oral use of BCAAs for reducing infection after oncologic surgery. Details: A meta-analysis of 6 small heterogeneous clinical trials in patients after oncologic surgery, mostly for liver cancer, suggests that receiving oral or intravenous BCAAs reduces the risk of postoperative infection by 38% when compared with control (105577).
• Postoperative recovery. There is limited evidence on the intravenous and oral use of BCAAs for improving postoperative recovery after oncologic surgery. Details: A meta-analysis of small heterogeneous clinical trials in patients after oncologic surgery, mostly for liver cancer, suggests that receiving oral or intravenous BCAAs reduces hospital stay by about 2 days, but does not reduce mortality or post-operative complications, when compared with control (105577).
• Psychological well-being. It is unclear if oral BCAAs are beneficial for psychological well-being. Details: A cross-sectional observational study has found that higher dietary consumption of BCAAs is associated with a lower risk of anxiety and depression when compared with lower consumption (105579).
• Sarcopenia. It is unclear if oral BCAAs are beneficial in patients with primary sarcopenia or in those with sarcopenia related to liver cirrhosis. Details: A small clinical study in postmenopausal adults at risk for sarcopenia shows that consuming BCAAs 9 grams daily for 8 weeks in addition to resistance training increases strength and muscle mass when compared with baseline, but is no different than resistance training plus a placebo (105576). Another small clinical study in adults 65 years or older with sarcopenia shows that taking a supplement containing BCAAs 2500 mg, vitamin D 500 IU, protein, and other vitamins daily for 8 weeks in addition to resistance training does not improve physical function when compared with resistance training alone. The supplement did seem to slightly improve handgrip strength and body mass when compared with no supplementation (100468). However, overall the study was inadequately powered to detect smaller effects on physical function and muscle mass. There is also interest in using BCCAs in patients with sarcopenia and liver cirrhosis. A clinical study in this population shows that taking BCAAs 7.2 grams (containing 1.2 grams of L-leucine, 600 mg of L-isoleucine, and 600 mg of L-valine) daily for 6 months improves handgrip strength, gait speed, and muscle mass when compared with baseline (108468). Although the study enrolled a control group (whey protein), the investigators did not provide a statistical comparison of outcomes between groups. A separate meta-analysis of low-quality clinical research in this population shows that taking BCAAs has no effect on handgrip strength when compared with no supplementation (108473). Although other outcomes were evaluated, results are inconclusive due to the limited number of studies available for each outcome.
• Spinocerebellar ataxia (SCA). It is unclear if oral BCAAs are beneficial in patients with SCA. Details: Although there is some preliminary clinical evidence that oral BCAAs might have a beneficial effect on symptoms of SCA (73), a small clinical crossover study shows that taking a particular BCAA compound (Livact) 4.5-18 grams daily for 4 weeks does not improve ataxia in patients with SCA when compared with placebo (37088).
• Stroke. It is unclear if oral BCAAs are beneficial in patients recovering from stroke. Details:A small nonblinded, clinical study in elderly patients with subacute stroke and sarcopenia currently undergoing intensive inpatient rehabilitation therapy shows that administering a specific product (Seniup; Enterogenomics Co) containing BCAAs 6 grams, given twice daily orally or by feeding tube for 1 month, modestly improves skeletal muscle index, dysphagia, gait, balance, and handgrip strength, and may attenuate muscle loss in affected upper and lower extremities, when compared with rehabilitation alone (108474). The validity of these findings is limited by the short duration of treatment. Other research has compared BCAA dosing regimens. A small study in stroke patients taking part in exercise sessions shows that taking BCAAs 3.5 grams (Hepas, Clinico Co. Ltd) daily for 2 months with breakfast is more effective for improving leg strength and balance than when taken post-exercise in the mid-afternoon. However, there were no differences in most measures of strength or in skeletal muscle mass (103352). More evidence is needed to rate BCAAs for these uses.

(Read more about BRANCHED-CHAIN AMINO ACIDS (BCAA))

POSSIBLY EFFECTIVE

• Constipation. Oral guar gum may improve symptoms and stool frequency in adults and children with constipation. Details: Several small clinical studies in adults show that taking partially hydrolyzed guar gum increases stool frequency and relieves straining and pain when compared to baseline. Studied doses include 4-12 grams daily for up to 8 weeks or 11 grams twice daily for up to 3 weeks (12548,25073,93619). Small clinical studies in children with constipation also show that taking guar gum 3-5 grams daily for 4 weeks or partially hydrolyzed guar gum 6 grams daily for 2-15 months moderately increases bowel movement frequency and decreases abdominal pain when compared to baseline (93605,101889). While these improvements appear to be similar to those reported in children treated with lactulose (93605), a direct comparison is lacking.
• Diarrhea. Oral guar gum may reduce the duration of diarrhea in adults and children. Details: Two small clinical studies in patients in the intensive care unit show that adding guar gum 2% or 22 grams/L to enteral feeding formula reduces the number of liquid stools and decreases the percentage of days with diarrhea by around 70% when compared with control enteral formula (10325,54239). A larger clinical trial in children with acute watery diarrhea due to infections also shows that taking guar gum reduces the duration of diarrhea by around 16 hours when compared with a control (54210). Another clinical study in children with persistent watery diarrhea also shows that adding guar gum 20 grams/L daily for 7 days to a comminuted chicken diet improves the odds of diarrhea resolution after 7 days by 3-fold when compared with the chicken diet alone (54243).
• Hypercholesterolemia. Oral guar gum, taken alone or with other dietary fibers, may reduce cholesterol levels in patients with hypercholesterolemia. Details: Several small clinical trials in patients with hypercholesterolemia show that taking guar gum 15-18 grams in single or divided doses daily for up to 24 months lowers cholesterol levels when compared with baseline levels or placebo (4971,10897,54314,54318,54333). Additionally, a meta-analysis of 25 small clinical studies in patients with hypercholesterolemia, diabetes, hypertension, or metabolic syndrome shows that guar gum reduces total cholesterol by around 20 mg/dL and low-density lipoprotein (LDL) cholesterol by around 17 mg/dL, but does not reduce triglyceride levels, when compared with controls. Subgroup analyses suggest that improvements in total and LDL cholesterol are greater in patients with hypercholesterolemia and in those taking at least 15 grams of guar gum daily (107930). Additional clinical evidence shows that taking guar gum along with other dietary fibers can reduce cholesterol levels. Taking 20 grams of a mixture containing guar gum, pectin, and a small amount of the insoluble fibers from soy, pea, and corn bran daily for 36 weeks lowers total and LDL cholesterol, but does not affect high-density lipoprotein (HDL) cholesterol or triglyceride levels (12547,54335). Also, taking a specific product containing guar gum and psyllium (Minolest) 16.5 grams daily for 3 months reduces total and LDL cholesterol when compared with placebo, but does not affect triglyceride levels (54206). Taking 15 grams of a combination of guar gum, psyllium, pectin, and carob gum daily for 6 months also appears to reduce total and LDL cholesterol when compared to baseline (8431).
• Hypertension. Oral guar gum may modestly reduce systolic and diastolic blood pressure, although these reductions may not be considered clinically significant. Details: Several small clinical trials in patients with hypertension show that taking guar gum 7-10 grams with each meal daily for up to 6 weeks modestly reduces systolic and diastolic blood pressure when compared with placebo (54232,54304,54320). However, guar gum does not appear to be as effective for reducing blood pressure as psyllium husk (54260). A meta-analysis of clinical trials in adults also shows that taking guar gum 1-30 grams daily for 6 weeks to 6 months reduces systolic and diastolic blood pressure by approximately 1 mmHg when compared with placebo or no intervention. However, many patients included in these trials did not have hypertension at baseline. Sub-analyses suggest that the effects of guar gum on blood pressure may be larger in patients with hypertension. The validity of this meta-analysis is limited by high heterogeneity (105507).
• Irritable bowel syndrome (IBS). Oral guar gum may improve bowel function and abdominal pain in adults and children with IBS. Details: Clinical trials in adults with IBS show that taking guar gum 5-10 grams daily for 12 weeks improves abdominal pain, bowel function, and quality of life when compared with baseline or wheat bran (10326,54245). A small clinical study in children 8-16 years of age with chronic abdominal pain and IBS shows that taking partially hydrolyzed guar gum 5 grams daily for 4 weeks decreases symptom frequency and normalizes bowel movements when compared with placebo. However, it does not improve abdominal pain (93615). Another small clinical trial in children 1-18 years of age with IBS shows that taking a specific guar gum product (Resource Optifibre, Nestle HealthCare Nutrition) for at least 6-8 weeks improves stool consistency and abdominal pain when compared to baseline (93621).

POSSIBLY INEFFECTIVE

• Obesity. Oral guar gum may not improve body weight in patients with obesity. Details: Several small clinical trials in overweight or obese adults show that taking guar gum 10.5-20 grams in divided doses daily for up to 14 months does not reduce body weight or improve satiety when compared with placebo or other controls (54212,54260,54353,54360). Additionally, a meta-analysis of 11 small clinical studies of various patient populations, including postmenopausal adults and those with hyperlipidemia or diabetes, shows that taking guar gum 7.5-21 grams daily for 3 weeks to 6 months does not reduce body weight when compared with placebo (8305).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Anal fissures. It is unclear if oral guar gum is beneficial in patients with anal fissures. Details: A small clinical study in patients with chronic anal fissures treated with topical application of glyceryl trinitrate shows that taking partially hydrolyzed guar gum 5 grams daily as maintenance therapy for a total of 10 months increases success rate by 53% and decreases the risk for recurrence of anal fissures by 52% when compared with control (93617).
• Autism spectrum disorder. It is unclear if oral guar gum is beneficial in children with autism spectrum disorder. Details: A very small clinical study in children 4-9 years of age with autism and constipation shows that taking partially hydrolyzed guar gum (Sunfiber, Taiyo Kagaku Co. Ltd.) 6 grams daily for 2-15 months moderately improves irritability, but not other measures of behavior, when compared to baseline (101889). The validity of this finding is limited by the lack of a comparator group.
• Chemotherapy-induced diarrhea. It is unclear if oral guar gum is beneficial for the prevention or treatment of chemotherapy-induced diarrhea. Details: A clinical study in patients receiving 5-fluorouracil chemotherapy for colorectal cancer shows that adding guar gum (Novasource GI control, Novartis Nutrition) 11 grams daily on cycle days 7-14 for 24 weeks to treatment with Lacticaseibacillus rhamnosus GG does not reduce the rate of severe diarrhea or other abdominal complaints when compared with no treatment or L. rhamnosus GG alone (16736).
• Cholera. It is unclear if oral guar gum is beneficial for improving diarrhea in patients with cholera. Details: A small clinical study in adults with cholera treated with doxycycline shows that adding guar gum 25-50 grams to oral rehydration solution for 2 days does not reduce the duration of diarrhea, but might reduce stool weight over the first 24 hours, when compared with oral rehydration solution alone (54262).
• Cholestasis. Small clinical studies suggest that oral guar gum may not improve symptoms of cholestasis during pregnancy. Details: Two small clinical studies in patients with cholestasis during pregnancy show that taking a specific granulated guar gum product (Guarem, Orion Pharmaceutical) 5-15 grams daily until delivery does not reduce the intensity of pruritus or improve liver function when compared with placebo (54209,54356).
• Diabetes. Small clinical studies suggest that oral guar gum might improve postprandial glucose levels in patients with type 1 diabetes; whether guar gum is effective for improving glycemic control in patients with type 2 diabetes is unclear. Details: Two small clinical studies in patients with type 1 diabetes show that taking guar gum 5 grams with meals four times daily for 4-6 weeks lowers postprandial glucose levels when compared with placebo (10896,12545). However, clinical trials in patients with type 2 diabetes show conflicting results. Several very small clinical studies suggest that taking guar gum 5-7.6 grams with each meal daily for up to 48 weeks lowers blood glucose when compared with baseline levels or placebo in patients with type 2 diabetes (12540,12541,12542,12543,12544). However, other small clinical trials in these patients show that taking guar gum 5-7 grams with each meal for up to 3 months does not improve glycemic control (54270,54275,54320,54326). The reasons for these discrepant findings are unclear; however, all of the studies in patients with type 2 diabetes were very small and likely underpowered to identify significant treatment effects. In addition to glycemic control, the effect of guar gum on serum lipids in patients with diabetes has also been evaluated. A meta-analysis of 11 small clinical studies in patients with type 2 diabetes with or without hypercholesterolemia shows that taking guar gum 5-30 grams daily for up to 6 months reduces total cholesterol by around 20 mg/dL and low-density lipoprotein (LDL) cholesterol by around 15 mg/dL. Doses of guar gum 20 grams daily or greater also appear to reduce triglyceride levels by around 13 mg/dL, while lower doses have no effect (107929).
• Influenza. It is unclear if oral guar gum is beneficial for the prevention of influenza. Details: Observational research in hospitalized patients has found that taking partially hydrolyzed guar gum 5.2 grams daily for the duration of a hospital stay is associated with a lower risk of influenza when compared with those not taking guar gum. One additional case of influenza appears to be prevented for every 14 patients taking guar gum over placebo (107928).
• Malnourishment-related diarrhea. It is unclear if oral guar gum is beneficial in children with malnourishment-related diarrhea. Details: A small clinical study in children aged 6-36 months with acute watery diarrhea related to malnutrition shows that adding guar gum 15 grams/L to oral rehydration solution reduces the duration of diarrhea by around 18 hours when compared with oral rehydration solution alone (93616).
• Postprandial hypotension. Small clinical studies suggest that oral guar gum may be beneficial for the prevention of postprandial hypotension in older females and patients with type 2 diabetes. Details: A small clinical study in older females with postprandial hypotension shows that taking guar gum 9 grams along with a meal decreases the risk of postprandial hypotension by 75% when compared with placebo (93618). Another small clinical study in patients with type 2 diabetes shows that taking guar gum 9 grams prior to a meal reduces the risk of postprandial decreases in blood pressure when compared to baseline (12540).
• Small intestinal bacterial overgrowth (SIBO). It is unclear if oral guar gum is beneficial in patients with SIBO. Details: A small clinical study in patients with SIBO shows that taking guar gum 5 grams daily along with rifaximin 1200 mg daily for 10 days increases the chance for eradication of SIBO by 37% to 40% when compared with rifaximin alone. However, overall clinical improvement appears to be similar for guar gum plus rifaximin and rifaximin alone (93622). More evidence is needed to rate guar gum for these uses.

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POSSIBLY EFFECTIVE

• Breast cancer. High dietary intake of soy might be beneficial for the prevention of breast cancer and breast cancer recurrence in some patients. However, soy supplements do not seem to be beneficial. Details: For prevention, most population research has found that higher dietary intake of soy is associated with up to a 26% reduced odds of developing breast cancer when compared with a lower intake (7335,7336,11038,11807,75377,75587,90955,108251). One meta-analysis of population research found that patients who consumed more than 15 mg soy isoflavones daily made up about 25% of all cases of breast cancer, compared with 75% of cases in the group of patients consuming less than 15 mg daily (108251). The effects appear to vary depending on the ethnicity of the patient. Population research has consistently found that a high-soy diet in Asian and Asian-American females is associated with a significantly reduced risk of breast cancer (7335,7336,11038,11807,75377,75587,90955). However, the amount of soy consumed in a Western diet, even among those who consume the highest amounts of soy, was not found to have a preventative effect (11391,17109,90955,90967). The reason for the disparate findings are unknown but may be related to genetic differences or differences in quantification of soy intake (7663,94153). Also, the prophylactic benefit seems to apply regardless of whether high amounts of soy are consumed during adolescence or later in life (7335,7336,9674). Limited population research has also found that consuming a diet high in soy is associated with up to a 25% reduced risk of breast cancer recurrence; however, it is unclear whether there is an association with reduced mortality in breast cancer patients (90956,90969,94154). The effect appears to be greater for certain subgroups of breast cancer patients. Increased dietary soy intake is associated with a 28% to 36% risk reduction in patients with estrogen receptor (ER)-negative tumors, a 30% risk reduction in patients with ER-positive/progesterone receptor (PR)-positive tumors, and a 25% to 36% risk reduction in postmenopausal patients (90956). Some small clinical studies have also evaluated the use of soy isoflavone extract . One small clinical study in patients with breast cancer shows that taking a soy isoflavone extract 200 mg daily for 2 weeks prior to surgery does not seem to affect cancer cell growth when compared with a historical control (11042). Another small clinical study in patients at high risk for breast cancer or with a history of breast cancer shows that taking a soy tablet containing 50 mg soy isoflavones (Novasoy, Archer Daniels Midland Co.) daily for 12 months does not alter mammographic or breast tissue density when compared with placebo (95999).
• Chronic kidney disease (CKD). Oral soy protein seems to improve some measures of disease severity in patients with CKD. Details: Clinical research shows that consuming soy protein seems to reduce proteinuria in people with kidney disease (2286,2287,2288,75249,75634). Also, a meta-analysis of clinical research in patients with CKD who are not on dialysis shows that soy protein intake reduces serum levels of creatinine by 0.07 mg/dL, phosphorus by 2.5 mg/dL, and triglyceride by 18 mg/dL when compared with placebo or control (90989).
• Diabetes. Diets high in soy seem to reduce the risk of type 2 diabetes. Also, oral soy protein, but not soy isoflavones, seems to modestly improve glycemic indices. It is unclear if soy is beneficial for lowering blood lipid levels or reducing cardiovascular (CVD) mortality risk in adults with type 2 diabetes. Details: A meta-analysis of observational studies has found that higher dietary intake of tofu, soy protein, or soy isoflavones is associated with an 8% to 16% lower risk of developing diabetes when compared with a lower dietary intake (105608). In menopausal patients without diabetes, a meta-analysis of clinical research shows that intake of soy isoflavones 40-161 mg daily seems to improve glycemic indices when compared with control (96423). Some research shows that soy can modestly improve glycemic indices in patients with diabetes. A meta-analysis of small low-quality clinical studies in patients with diabetes or metabolic syndrome shows that taking various formulations of soy protein modestly reduces fasting plasma glucose and insulin levels, as well as insulin resistance, when compared with control (96001). An older meta-analysis assessing both healthy patients and patients with diabetes shows that a whole soy diet reduces fasting blood glucose by about 4 mg/dL when compared with control (75493). Small clinical studies also suggest that an extract of the fermented soybean product, Touchi, acts as an alpha-glucosidase inhibitor. It seems to modestly lower blood glucose, glycated hemoglobin (HbA1c), and triglycerides in patients with type 2 diabetes (11762,75205). However, some conflicting evidence exists. A meta-analysis of small, low-quality clinical studies in patients with type 2 diabetes shows that taking soy isoflavones does not improve glycemic indices when compared with control (105610). Also, another meta-analysis of clinical research in patients with type 2 diabetes shows that taking soy protein and/or soy isoflavones for 6-12 weeks does not improve glycemic indices when compared with either soy protein without isoflavones, other protein, or placebo (105610). Reasons for these conflicting results are unclear but may relate to differences in baseline blood glucose levels, the formulation of soy, or the duration of treatment. Some research shows that soy may modestly improve the lipid profile in patients with diabetes. A meta-analysis of clinical research in patients with diabetes shows that taking soy protein and/or soy isoflavones for 6-12 weeks modestly reduces levels of total and low-density lipoprotein (LDL) cholesterol, but not high-density lipoprotein (HDL) cholesterol or triglycerides, when compared with control (105610). Consuming soy foods might reduce the risk of mortality related to CVD in patients with diabetes. Population research suggests that consuming soy foods at least four days each week is associated with a 23% reduced risk of CVD mortality when compared with never consuming soy foods. Consuming soy foods less than four times weekly is not associated with CVD mortality risk (108242). Soy is also of interest in the prevention or treatment of gestational diabetes. Population research has found that consumption of less than 40 grams of soy daily in the second trimester is associated with a 2.1-fold increased risk of gestational diabetes when compared with daily soy intake of 40 grams or more (108241). Also, a small clinical trial in patients with gestational diabetes shows that consuming a diet containing about 0.3 grams/kg soy protein for 6 weeks, beginning at 24-28 weeks' gestation, reduces blood glucose levels, insulin resistance, and triglyceride levels when compared with consuming a non-soy control diet (95993).
• Diarrhea. Oral soy fiber seems to reduce acute diarrhea in infants, although it may not be beneficial in adults. Details: Giving soy fiber-supplemented formula orally, either alone or in combination with oral rehydration solution, seems to reduce the duration of acute diarrhea in infants when compared with cow's milk formula or oral rehydration solution alone (2291,2292,75474,75517,75523,75531,75572). However, in some studies, a reduction in the duration of acute diarrhea was not observed when compared with cow's milk formula (75522,75542). In adult patients receiving nutrition via intubation, preliminary clinical research suggests that treatment with soy-polysaccharide fiber does not improve the incidence of diarrhea when compared to control (75508).
• Galactosemia. Oral soy protein can be used in infant formula to prevent symptoms of galactosemia. Details: Soy does not contain the sugar galactose. Some research suggests that giving oral isolated soy protein-based formula in place of milk-based formula to infants seems to be helpful for preventing symptoms of galactosemia (3400).
• Hyperlipidemia. Oral soy protein seems to modestly reduce lipid levels. However, purified soy isoflavone may not have the same benefit. Details: Consuming soy protein orally, in place of other dietary protein, seems to modestly reduce total cholesterol and low-density lipoprotein (LDL) cholesterol by about 3% to 4% when compared with control (842,2293,2294,2296,2585,3402,4755,6412,7346,7803)(8530,10459,42059,75356,105598,105604). Additionally, some research shows that soy protein might be more effective in patients with more severe hyperlipidemia (75497). The FDA has approved labeling for specific soy products that states that they may be used for cholesterol reduction in combination with a diet low in saturated fat and cholesterol. To be eligible for this labeling, soy products must provide at least 6.25 grams of soy protein per serving, which is 25% of the effective daily intake (3977). However, not all evidence is positive. Some studies have shown no benefit of soy protein or isoflavones on LDL cholesterol levels when compared to control (8521,9679,12034,17105,53771,75236)(75242,75274,75276). Furthermore, although a few clinical trials have shown significant decreases in triglycerides following supplementation with soy or soy protein isolate (75258,75365), most studies suggest that soy protein does not decrease triglycerides when compared to control (2293,6412,8530,12034,17105). The effect of soy protein on high-density lipoprotein (HDL) cholesterol is inconsistent. Most studies suggest that it does not increase HDL levels (2293,6412,8530,12034,75286)(75524), although some analyses of clinical research suggest that soy might increase HDL cholesterol levels by up to 4% when compared to control (75480,75497). Doses of soy protein have ranged from 25-135 grams daily, providing 40-318 mg daily of isoflavones; however, higher doses do not seem to be more effective (17106,105598). Some evidence suggests that soy protein providing more isoflavones, or supplemented with isoflavones, might be more effective (3402,6413,10459), but this has not been consistently found in studies (3402). Most studies evaluating soy protein products containing little to no isoflavones suggest that these products are not effective (3402,7346,9679); however, purified soy isoflavone supplements alone do not seem to decrease LDL cholesterol (851,4738,7345,8502,10459,14066). In addition to soy protein, limited evidence suggests that soy fiber alone might reduce total cholesterol, LDL cholesterol, and triglyceride levels when compared with placebo (75686,75689). There is also some evidence that ultra-high temperature (UHT) treatment of soy milk destroys any cholesterol-lowering activity (17106).
• Hypertension. Oral soy seems to modestly reduce blood pressure in some patients. Details: A meta-analysis of the available clinical research shows that consuming soy products modestly lowers systolic and diastolic blood pressure by an average of 1.6 mmHg and 1.2 mmHg, respectively, when compared with control (105605). This analysis is limited by high risk of bias and the lack of a dose-response relationship. An older meta-analysis, as well as individual clinical studies, in patients with prehypertension or mild hypertension show that consuming soy protein 18-40 grams, providing 118-143 mg of isoflavones, daily or black soy peptide 4.5 grams daily for 8 weeks reduces systolic blood pressure by about 4-8 mmHg and diastolic blood pressure by about 3-5 mmHg when compared with control (1313990962,90965). In normotensive patients, soy protein does not seem to reduce systolic or diastolic blood pressure (90965).
• Lactose intolerance. Oral soy protein can be used in infant formula to prevent symptoms of lactose intolerance. Details: Providing isolated soy protein-based formula orally to infants is an acceptable alternative to milk-based formulas, especially for infants with symptoms of lactose intolerance (3400).
• Menopausal symptoms. Oral soy seems to reduce hot flashes in patients with menopausal symptoms. Details: Consuming soy protein 15-60 grams, providing 34-100 mg of isoflavones, daily seems to modestly decrease the frequency and severity of hot flashes in some menopausal adults. Improvement seems to be greater in those with a higher frequency of hot flashes at baseline (2296,2297,3978,3986,3987,7653,9917,11805,15220,17110,75478)(75486,75649,92661,95997). Taking concentrated soy isoflavone extracts, providing 35-200 mg of isoflavones, daily seems to have similar effects (4751,6455,7802,9916,10460,11805,11993,11994,13209,15220)(15850,75478,90950,90979,92661). Higher doses of 100-200 mg of isoflavones daily and higher frequency of dosing intervals seem to have greater benefit (90950). Furthermore, the amount of the specific isoflavone genistein contained in a soy product may influence outcomes. According to one analysis, studies using products that provide at least 15 mg of genistein daily consistently show positive outcomes. Studies using products containing a lower concentration of genistein have produced inconsistent findings (15133). Not all research has found that soy extracts reduce hot flashes (7801,11806,14062,15038,15851,16762); some experts speculate that this is due to a high placebo response (9916). Some clinical research has compared soy isoflavone extracts to conventional estrogen replacement. In one study, a concentrated soy isoflavone extract of genistein 54 mg daily reduced hot flashes by 22% to 29%, compared to 54% in those taking 17beta-estradiol as 1 mg daily plus norethisterone acetate 0.5 mg daily (11994). Additional preliminary research suggests that taking a soy isoflavone extract providing 60 mg isoflavones twice daily is comparable in efficacy to conjugated estrogens 0.625 daily for reducing menopausal symptoms. Conjugated estrogens seem to work more quickly; it seems to take up to 2 months to achieve the full effect of soy isoflavones (13209). One clinical trial compared soy isoflavones 10-40 mg daily to S-equol, a soy isoflavone metabolite. Soy isoflavones were less effective for reducing hot flash frequency when compared with S-equol (90960). This has led to some speculation that the effectiveness of soy in relieving hot flashes is influenced by a patient's ability to convert daidzen, a soy isoflavone, to S-equol (90950). It is theorized that patients who are S-equol producers are more likely to achieve symptom relief from soy. However, observational and clinical research does not support this theory (90990,94162). Soy has also been evaluated for the management of other symptoms of menopause. Some clinical research in menopausal patients with depression suggests that taking soy 100 mg, providing 50 mg of soy isoflavones, in combination with sertraline 50 mg daily for three months improves depression severity when compared with sertraline or soy alone (90958). An analysis of two small clinical trials shows that supplemental soy providing 50-118 mg of isoflavones can reduce vaginal dryness scores by 0.26 when compared with control (92661). Also, an open-label study suggests that drinking a specific beverage (ViveSoy) containing soy protein 15 grams and soy isoflavones 50 mg orally daily for 12 weeks reduces overall urogenital symptoms when compared with a control group (95997). However, one small clinical study in perimenopausal patients shows that a soy-rich diet does not relieve urogenital symptoms, including vaginal dryness, itching, and urinary incontinence, when compared with a soy-free diet (75285).
• Metabolic syndrome. Oral soy protein seems to improve glycemic control and other markers of metabolic syndrome. Details: A meta-analysis of clinical research in patients with diabetes or metabolic syndrome shows that following a diet high in soy protein can decrease fasting plasma glucose and insulin levels, as well as insulin resistance, when compared with a control diet. Furthermore, dietary intake of soy protein modestly decreases diastolic blood pressure and low-density lipoprotein (LDL) cholesterol by a small amount in this population, although there is no effect on systolic blood pressure, high-density lipoprotein (HDL) cholesterol, or triglycerides (96001). Other clinical research shows that consuming a soy nut diet or a soy protein diet reduces fasting plasma glucose and LDL cholesterol levels when compared to baseline in postmenopausal adults with metabolic syndrome; however, the soy nut diet seems to more beneficial than either the soy protein diet or a Dietary Approaches to Stop Hypertension (DASH) diet (75378).
• Muscle strength. Oral soy protein seems to increase muscle strength. Details: Overall, soy protein combined with resistance training seems to increase muscle strength when compared with placebo (16748,75246,96942,98871). A meta-analysis of three clinical studies shows that consuming soy protein in addition to resistance training improves strength and lean body mass in untrained athletes (98871). Other clinical research shows that soy also improves muscle strength in trained athletes and postmenopausal adults (75246,96942). One study in Olympic endurance athletes shows that consuming isolated soy protein (Supro) 1.5 grams/kg daily for 8 weeks increases body mass and strength indices and reduces fatigue when compared with no protein supplementation (75246). Clinical research in postmenopausal adults undergoing resistance training 3 days weekly shows that taking soy protein 25 grams daily in skim milk for 16 weeks increases the maximum amount of weight lifted in one repetition by over 80% for both bench press and knee extension when compared to a maltodextrin placebo (96942). Soy protein has also been compared with other protein supplements. A meta-analysis of preliminary clinical studies and other clinical research show that soy protein seems to work as well as whey, beef, and dairy (casein and whey) protein for improving muscle strength (75404,85941,98871,105591). However, the validity of these findings is limited by the small size and high heterogeneity of the studies.
• Osteoporosis. Oral soy isoflavones seem to improve bone density and reduce the risk of osteoporosis in post-menopausal adults. Details: Most clinical research suggests that soy protein or soy extract containing 75-90 mg of isoflavones can increase bone mineral density (BMD), or slow BMD loss, and improve biochemical markers of bone turnover in peri- and postmenopausal adults when compared with control (842,4951,6449,9775,11082,90972,90980). Lower doses of isoflavones do not seem to be as beneficial. However, some observational research in postmenopausal Japanese adults and Chinese females aged 30-40 years has found that consuming about 50 mg dietary soy isoflavones daily is associated with a higher BMD when compared with lower soy isoflavone intake (7342,11081). An observational study in postmenopausal Asian patients has found that consuming higher dietary soy protein is associated with a lower risk of developing fractures when compared with lower amounts (13181). However, not all research has been positive. Some conflicting evidence suggests that soy protein does not improve BMD in some postmenopausal adults. The discrepancy in findings may be due to differences in soy formulations, concomitant treatments, or variable patient populations (4952,12034,14064,90978). For example, most evidence shows that soy does not affect BMD in premenopausal patients or bone turnover in adolescents (7660,8532,9684,11086). It is theorized that only people who can convert daidzein, a soy isoflavone, to S-equol might obtain benefits from soy (4952). However, clinical research suggests that there is no difference in bone calcium retention between equol producers and nonproducers (95995).

POSSIBLY INEFFECTIVE

• Benign prostatic hyperplasia (BPH). Oral soy does not seem to reduce BPH symptoms. Details: Clinical research in patients with BPH shows that taking soy isoflavones 40 mg (Soylife 40, Acatris) daily for 12 months does not improve peak urine flow rate, residual urine volume, symptoms of BPH, or general quality of life when compared with placebo (90983).
• Breast cancer-related hot flashes. Oral soy does not seem to reduce the risk for breast cancer-related hot flashes. Details: Clinical research shows that consuming a soy beverage providing soy isoflavones 90 mg daily or taking a soy extract providing soy isoflavones 50 mg three times daily does not reduce hot flashes in breast cancer survivors (3991,7658,8499). Observational research in breast cancer survivors has also found no association between hot flash incidence and soy isoflavone consumption (105602).
• Colorectal cancer. Oral soy does not seem to reduce the risk for colorectal cancer. Details: Some observational research from China and Japan has found that intake of soy protein or soy isoflavone is not associated with the risk of developing colorectal cancer (105601). Furthermore, some clinical research shows that soy protein powder 58 grams containing isoflavones 83 mg, taken daily for 12 months, does not reduce the proliferation of colorectal epithelial cells in patients with adenomatous polyps when compared to control (75282).
• Exercise-induced muscle soreness. Oral soy does not seem to reduce muscle soreness after exercise. Details: Some clinical research shows that taking soy isoflavone extract 120 mg orally for 30 days prior to exercise doesn't ameliorate muscle soreness caused by exercise when compared with placebo (8524).

INSUFFICIENT RELIABLE EVIDENCE to RATE

• Alzheimer disease. It is unclear if oral soy improves cognition in patients with Alzheimer disease. Details: Preliminary clinical research in patients with Alzheimer disease shows that taking soy isoflavones (Novasoy, Archer Daniels Midland Co.) 100 mg daily for 6 months does not improve cognition when compared with placebo (96424).
• Androgen deprivation therapy (ADT)-associated hot flashes. One small clinical study in patients with prostate cancer receiving ADT shows that taking soy protein powder 20 grams, providing 160 mg of isoflavones, alone or along with venlafaxine 75 mg, once daily for 12 weeks does not improve the severity of hot flash symptoms when compared with milk protein, with or without venlafaxine (90981).
• Asthma. It is unclear if oral soy reduces asthma symptoms. Details: One population study has found that people with asthma who consume soy foods providing more than 250 mcg of genistein for every 1000 kcal consumed (e.g., 500 mcg/day for 2000 kcal diet) daily have increased lung function, as measured by FEV1 scores, when compared to those who consume less (11084). However, clinical research in adult and pediatric patients with poorly controlled asthma shows that taking soy isoflavones 50 mg twice daily for 24 weeks does not improve FEV1 scores, reduce the number of asthma episodes, or improve asthma symptoms when compared with placebo (90977).
• Cardiovascular disease (CVD). It is unclear if soy consumption reduces the risk for CVD or CVD-related mortality. More research is needed to determine whether certain populations may benefit from increased soy intake. Details: Due to mixed findings, it is unclear if consuming soy is associated with a reduced risk of CVD events. One population study has found that consuming at least 60 grams of soy daily over a 12-month period is associated with a 14% reduced risk of having a CVD event over the next 5 years, as well as a reduced risk of stroke, when compared with consuming less than 15 grams daily (108253). A study in Japan has found that consuming soy five or more times per week over a 10-year period is associated with fewer adverse cardiovascular outcomes in only a certain subset of patients when compared with consuming soy twice a week or less. Postmenopausal adults with the highest consumption had a 36% lower risk of stroke, a 45% lower risk of myocardial infarction, and a 65% lower risk of CVD mortality. However, risk was not significantly reduced in males or premenopausal adults (17108). In contrast, a study in Korea has found that consuming a median of 16.5 servings of soy per week is associated with a 64% reduced risk of CVD incidence in premenopausal, but not postmenopausal, adults when compared with a median of 4.7 servings per week. A subgroup analysis has found that the highest intake of tofu, but not soybeans, fermented soy paste, or soy milk, is associated with a reduced incidence of CVD (108243). Additionally, higher dietary intake of soy does not seem to be associated with a reduced risk of cardiovascular events in Western females (13040). The amount of phytoestrogens typically consumed in Western diets is significantly lower than the amount typically consumed in Asian diets. The form of soy food and isoflavone content might play a role in these discrepancies. Any association between consumption of soy-containing foods and CVD mortality is also unclear. A meta-analysis of observational studies conducted in China or Japan has found that the highest intake of soy-containing foods is not associated with a lower risk of CVD-related mortality when compared with the lowest intake (96941). A population study in patients with or without a prior history of CVD has also found that soy-containing food consumption is not associated with a lower risk of CVD-related mortality when compared with the lowest intake (108244). However, some research has found a positive effect of soy consumption on CVD mortality risk. A subgroup analysis of a meta-analysis has found that the highest intake of fermented soy products is associated with a 16% reduced risk of CVD mortality; higher intake of non-fermented soy is not associated with CVD mortality (96941). Population research in patients without a prior history of CVD has found that soy-containing food consumption is associated with a lower risk of myocardial infarction-related mortality when compared with the lowest intake (108244). Also, one population study in adults with type 2 diabetes has found that consuming soy-containing foods at least four days each week is associated with a 23% reduced risk of CVD mortality when compared with never consuming soy foods. Consuming soy foods less than four times weekly is not associated with CVD-related mortality (108242).
• Cervical cancer. It is unclear if oral soy reduces the risk for cervical cancer. Details: Population research has found that the highest dietary intake of soy over approximately 17 years is associated with a 57% decreased risk of cervical cancer when compared to the lowest intake of soy in females who also drank green tea. However, neither soy intake nor green tea intake alone was associated with a decreased risk of cervical cancer. Additionally, other population research has not confirmed an association between soy intake and cervical cancer (101800).
• Child growth. It is unclear if oral soy protein enhances child growth. Details: Preliminary clinical research in Colombian children 2-7 years of age shows that consuming a soy protein supplement dissolved in fruit juice on 6 days of every week for 1 year does not improve body mass index, body composition, weight, or height when compared with consuming fruit juice and whole milk. A sub-analysis shows that children consuming the soy protein supplement had an increase in weight-for-age when compared with the control group, indicating that the supplement may be beneficial for ensuring adequate weight and nutritional status during prepubertal growth (100320). However, the children in this study had normal or below average weight-for-age at baseline, limiting the applicability of these findings to other patient populations.
• Cognitive function. It is unclear if oral soy improves cognitive function; research is conflicting. Details: Some research shows that college students who increase consumption of soy foods providing isoflavones 100 mg daily have improved short- and long-term memory (9671). Postmenopausal patients aged 50-65 years who take a soy extract supplement providing isoflavones 60 mg daily also seem to have some improvement in some measures of cognitive function (12048). There is also evidence in postmenopausal patients aged 55-75 years that taking a soy extract supplement providing isoflavones 110 mg daily might improve verbal memory scores (12040). However, another study in this population shows that consuming 25.6 grams daily of soy protein providing 99 mg of isoflavones does not improve cognitive function (12034). Similarly, population research in females aged 42-52 years has found that increasing dietary intake of the isoflavones genistein and daidzein is not associated with improved measures of cognitive function (15042). These differing findings might be explained by variations in study design and soy formulations.
• Cognitive impairment. Oral soy has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: Preliminary clinical research in adults 55 years of age and older with mild cognitive impairment shows that taking a specific combination product (DW2009) containing fermented soybean powder and Lactobacillus plantarum daily for 12 weeks modestly improves composite cognitive function when compared with placebo (100319). It is not clear if this effect is due to soy, lactobacillus, or the combination.
• Colic. It is unclear if oral soy is beneficial in infants with colic. Details: Preliminary clinical research shows that consuming soy-based formula might reduce the duration of colic symptoms in infants with cows' milk intolerance (75509,75543). However, other clinical research shows that consuming soy-based formula does not improve crying in infants with colic when compared with dicyclomine hydrochloride 3 mg/kg daily (75573). Also, a meta-analysis of only high quality clinical research shows that soy milk formula does not improve the persistence of colic or the duration of crying in infants with colic when compared with control (75611).
• Crohn disease. It is unclear if oral soy improves symptoms of Crohn disease. Details: A small observational study in patients with inactive Crohn disease has found that taking oral soy-derived protein in combination with enteral treatment for 4 weeks is associated with increased bowel movements, improved symptoms such as fatigue and mental strain, and increased body weight when compared with standard enteral treatment alone (75175).
• Diabetic nephropathy. It is unclear if oral soy improves kidney function in patients with diabetic nephropathy. Details: A meta-analysis of small clinical trials in patients with diabetic nephropathy shows that consuming soy products, such as soy protein and soy milk, modestly reduces proteinuria and blood urea nitrogen (BUN), as well as levels of total and low-density lipoprotein (LDL) cholesterol, triglycerides, and fasting blood glucose, when compared with animal protein or cow's milk. However, there was no effect on any measures of kidney function (108247). Some individual small clinical trials show that replacing dietary animal protein with soy protein reduces urinary albumin excretion in patients with diabetic nephropathy (7348,12555,12556). However, one small clinical study shows that consuming soy milk 240 mL daily for 4 weeks does not affect urinary creatinine, blood urea nitrogen, proteinuria, or glomerular filtration rate in patients with diabetic nephropathy (90966).
• Dyspepsia. Oral soy protein has only been evaluated in combination with other ingredients; its effect when used alone is unclear. Details: A small clinical study in adults with mild or moderate dyspepsia shows that consuming 1 gram of toasted soy flour fermented with Lactobacillus delbrueckii up to three times daily for 3 weeks does not improve heartburn severity or frequency when compared with placebo (105599).
• Endometrial cancer. It is unclear if oral soy protein reduces the risk for endometrial cancer. Details: Most epidemiological research has found that increased soy intake is associated with a lower risk of endometrial cancer. Endometrial cancer incidence is lower in Japan, China, and other Asian countries where the typical diet is low in calories and high in soy, whole grain foods, vegetables, and fruits (7338,11036,90954). Also, a large meta-analysis of population research has found that the highest total and fermented soy intake is associated with a 17% to 19% reduced risk of developing endometrial cancer when compared to the lowest intakes in postmenopausal adults (96002). However, one clinical study shows that taking soy protein 25 grams daily providing 91 mg of aglycon equivalents of isoflavones and glycosides for three years does not reduce the risk of endometrial hyperplasia or cancer when compared with placebo in postmenopausal adults. However, this study may not have been adequately powered to detect small differences in the low rates of endometrial hyperplasia (90971).
• Fibromyalgia. It is unclear if oral soy reduces fibromyalgia symptoms. Details: Clinical research shows that consuming a shake containing soy protein 20 grams and soy isoflavone 160 mg once daily for 6 weeks does not improve physical functioning or symptoms of depression in patients with fibromyalgia when compared with placebo (75451).
• Gastric cancer. It is unclear if oral soy reduces the risk for gastric cancer. Details: Meta-analyses of population research have found that the highest intake of soy-containing foods and nonfermented soy products is associated with a 21% to 37% decreased risk of gastric cancer when compared with the lowest intake (95998,108246). Intake of at least 100 grams daily of nonfermented soy foods was found to be the most protective (95998). However, a high intake of fermented soy products is associated with an increased risk of gastric cancer, and intake of 1-5 cups daily of the fermented soy product miso soup is associated with an increased risk of gastric cancer in males (95998,108246).
• Hepatitis C. It is unclear if oral soy is beneficial for hepatitis C. Details: Preliminary clinical research in patients with hepatitis C shows that taking soy protein 32 grams daily for 12 weeks reduces the number of cases of steatosis by 47% and reduces alanine aminotransferase (ALT) levels by 13% when compared to baseline. However, it is no different than taking casein protein (90970).
• Irritable bowel syndrome (IBS). A small study suggests that oral soy isoflavones might reduce IBS symptoms. Details: A small clinical study in females with IBS shows that taking soy isoflavones 40 mg daily for 6 weeks improves symptoms of IBS, such as abdominal distention and abdominal pain severity and duration, by approximately 27% when compared with placebo. Quality of life is also improved. Some symptoms are also improved when soy isoflavones are taken in combination with vitamin D; however, the combination of soy isoflavones and vitamin D does not seem to improve symptoms better than soy isoflavones alone (96425).
• Lung cancer. It is unclear if dietary soy reduces the risk for lung cancer. Details: A meta-analysis of epidemiological research has found that although increased soy intake is not associated with a reduced risk of lung cancer overall, it is associated with a slightly reduced risk in nonsmoking adults (90985).
• Mastalgia. It is unclear if oral soy is beneficial for mastalgia. Details: A small clinical study suggests that soy milk providing 34 grams soy protein daily might reduce cyclical breast pain when compared with no intervention (2428).
• Migraine headache. Oral soy 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 soy isoflavones 60 mg, dong quai 100 mg, and black cohosh 50 mg daily for 24 weeks reduces the frequency of menstrual-associated migraine attacks when compared with placebo (35797). It is not clear if this effect is due to soy, the other ingredients, or the combination.
• Neonatal jaundice. It is unclear if oral soy reduces the risk of neonatal jaundice. Details: Clinical research shows that patients with gestational diabetes who consume a diet containing soy protein along with other plant and animal proteins for 6 weeks beginning at 24-28 weeks' gestation have a 73% reduced risk for newborn hyperbilirubinemia when compared with those consuming a control diet containing only non-soy plant and animal proteins (95993).
• Nonalcoholic fatty liver disease (NAFLD). It is unclear if oral soy is beneficial for the treatment or prevention of NAFLD. Details: Observational research in a Chinese population has found that increased frequency of dietary soy consumption is associated with a lower incidence of NAFLD when compared with lower consumption (105612). A meta-analysis of three small clinical trials in patients living in Iran with NAFLD shows that consuming soy milk, soy foods, or a genistein supplement for 8 weeks might reduce some liver transaminase levels when compared with control (105611). Another meta-analysis of small clinical trials in patients with NAFLD shows that consuming soy milk, soy foods, or a genistein supplement for 8 or 24 weeks modestly improves insulin resistance but does not improve body mass index, cholesterol levels, or liver transaminase levels (108239). These analyses are limited by their generally small population size and the heterogeneity of interventions.
• Obesity. It is unclear if consuming oral soy protein as part of a calorie-restricted diet improves weight loss; research is conflicting. Details: Some clinical research shows that consuming soy protein in conjunction with calorie restriction for 2-6 months helps reduce weight in those who are obese and overweight when compared with calorie restriction alone (11085,75397). Other clinical research shows that consuming soy protein for 16 weeks improves weight loss in overweight females when compared with consuming protein from meat (75620). Also, consuming black soy peptide 4.5 grams daily for 12 weeks reduces body weight and body fat mass more than placebo in overweight and obese adults (90961). In addition, some clinical evidence shows that eating biscuits supplemented with soy fiber 100 grams daily for 12 weeks reduces body weight, body mass index (BMI), and low-density lipoprotein (LDL) cholesterol when compared to control in overweight and obese patients (90960). However, contradictory evidence exists. Some clinical research shows that following a calorie-restricted diet and consuming soy-based meal replacements 3-5 times daily for 12-16 weeks, or eating soy protein-rich foods in place of animal protein for 2-12 weeks, does not improve weight loss in overweight or obese individuals when compared to a calorie-restricted diet alone (75277,75372,75376,90968). Also, in overweight and obese females following a free-choice diet, soy protein 56 grams daily for 23 weeks does not appear to improve weight loss when compared to eating an isoenergetic amount of carbohydrates (86077). Finally, a subgroup analysis of six preliminary clinical trials shows that soy products do not improve weight loss in postmenopausal adults (98870). The reason for these disparate findings is unclear but may be due to differences in the soy products used or differences in patient population. For example, a meta-analysis of clinical research shows that phytoestrogen consumption reduces weight in healthy postmenopausal adults but not in those with comorbid conditions (98870). However, the clinical validity of this analysis is limited because it did not evaluate the effect of soy-only phytoestrogens. Soy protein has also been compared with whey protein. One small clinical study in overweight and obese adults shows that patients taking soy protein isolate 52 grams for 23 weeks had similar overall weight and fat loss as those taking whey protein concentrate 52 grams daily (86077). In contrast, another small clinical study in overweight males shows that taking soy isolate 60 grams before lunch daily for 12 weeks is less effective for weight loss when compared with taking whey protein concentrate 65 grams (91801).
• Osteoarthritis. It is unclear if oral soy protein reduces osteoarthritis pain. Details: Preliminary clinical research shows that taking soy protein 40 grams daily for three months improves range of motion, pain, and quality of life in osteoarthritis patients, particularly males, when compared to baseline. However, these beneficial effects seem to also be observed following supplementation with milk-based protein, indicating that the benefits may have resulted from a placebo effect (75266).
• Overall mortality. It is unclear if dietary soy reduces overall mortality; the available research is conflicting. Details: A meta-analysis of observational studies has found that the highest intake of soy products is not associated with a lower risk of overall mortality, mortality from cardiovascular disease, or mortality from cancer when compared with the lowest intake (96941). However, a more recent population study has found that consuming at least 60 grams of soy daily over a 12-month period is associated with a 17% reduced risk of overall mortality over the next 5 years when compared with consuming less than 15 grams daily (108253). Also, an observational study in Japanese patients followed over 14.8 years has found that although overall soy intake is not associated with any benefit, increased intake of fermented soy products, such as natto and miso, was found to be associated with a slightly reduced risk of mortality (105600).
• Polycystic ovary syndrome (PCOS). It is unclear if oral soy reduces PCOS symptoms. Details: Clinical research shows that taking soy isoflavones 50 mg daily for 12 weeks improves insulin levels and insulin resistance by a small amount when compared with placebo in patients with PCOS. Furthermore, taking soy isoflavones improves the free androgen index by approximately 25% and triglyceride levels by 14% when compared to baseline. However, taking soy isoflavones does not improve low- or high-density lipoprotein (LDL or HDL) cholesterol levels or markers of inflammation (95994).
• Postmenopausal conditions. It is unclear if oral soy is beneficial for postmenopausal conditions. Details: A meta-analysis of generally small clinical trials in postmenopausal adults shows that taking soy protein with isoflavones or soy isoflavones, usually for 3-24 months, has modest beneficial effects on total cholesterol, and possibly high-density lipoprotein (HDL) cholesterol, when compared with milk protein, soy protein without isoflavones, or placebo. However, there was no effect on low-density lipoprotein (LDL) cholesterol or triglyceride levels. Subgroup analyses show that reductions in LDL cholesterol levels occur when soy is used for less than 6 months, in individuals older than 55 years, and when the soy protein contains isoflavones (108249).
• Preterm labor. It is unclear if oral soy reduces the risk for preterm labor. Details: Clinical research in patients with gestational diabetes shows that consuming a diet containing soy protein along with other plant and animal proteins for 6 weeks, beginning at 24-28 weeks' gestation, does not reduce the likelihood for caesarean section, preterm delivery, or maternal hospitalization when compared with a control diet containing only non-soy plant and animal proteins (95993).
• Premenstrual syndrome (PMS). It is unclear if oral soy reduces PMS symptoms. Details: Preliminary clinical research in patients with PMS shows that taking isolated soy protein containing soy isoflavones 68 mg daily for two menstrual cycles reduces cramps and swelling when compared with placebo (75279).
• Prostate cancer. It is unclear if oral soy is beneficial for the treatment or prevention of prostate cancer; research is conflicting. Details: Observational and clinical research has evaluated the effects of soy intake on prostate cancer risk. Observational research has found that consuming an Asian diet, which contains 10 times more soy than the average American diet, is associated with a lower risk of prostate cancer; however, it is unclear whether it is the soy content of the diet or if genetic differences or environmental factors such as fat ingestion are responsible for this correlation (2298,12884,12886,12887). A meta-analysis of observational trials from North America, Europe, and Asia has found that highest intake of total soy foods, unfermented soy foods, or soy isoflavones is associated with a reduced risk of prostate cancer when compared with the lowest intakes. However, higher intake of fermented soy foods is not associated with a reduced risk (96939). Furthermore, some observational research in Japanese males has found a weak association between increased prostate cancer mortality and a higher dietary intake of soy isoflavones when compared with a lower intake (105607). Research evaluating the use of soy supplements is also conflicting. One clinical study shows that taking soy protein 40 grams daily for 6 months reduces the development of prostate cancer six-fold in those at risk of prostate cancer when compared with milk protein (75432). However, another clinical study in healthy adults aged 50-80 years shows that taking soy protein, providing 83 mg isoflavones, daily for a year does not affect PSA levels when compared with a soy protein drink without isoflavones (12888). Soy products have also been evaluated in patients with prostate cancer. One clinical study shows that consuming a specific bread containing 50 grams of soy, providing 117 mg isoflavones, reduces PSA levels after about 3 weeks of treatment when compared with control (13140). Other preliminary clinical research in patients with rising PSA levels following prior therapy for prostate cancer shows that consuming 8 ounces of soy milk, standardized to contain 47 mg isoflavones, three times daily for 12 months slows the increase in PSA levels from 56% to 20% when compared with baseline (75435). However, one clinical study shows that taking soy protein 40 grams daily for 6 months does not reduce prostate size or improve PSA levels in those diagnosed with prostate cancer when compared with milk protein (75432). Also, in those with early stage prostate cancer, consuming a soy beverage daily providing genistein 60 mg does not seem to affect risk factors for progression of prostate cancer, including testosterone, estradiol, PSA, and sex hormone binding globulin (SHBG) levels (11033). Furthermore, consuming soy protein isolate 20 grams standardized to contain approximately 70 mg isoflavones daily for two years does not prevent prostate cancer recurrence following radical prostatectomy when compared with placebo (90953). Reasons for the discrepancies are not entirely clear, but may include the relatively short trial durations (up to 12 months) and heterogeneity of soy preparations and dosing regimens.
• Rheumatoid arthritis (RA). It is unclear if oral soy reduces RA symptoms. Details: Preliminary clinical research in patients with RA shows that consuming a liquid diet containing hydrolyzed soy protein (Top Up) daily for 4 weeks does not improve pain intensity, morning stiffness, or joint swelling and tenderness when compared to consuming a normal daily diet (75619).
• Sarcopenia. It is unclear if oral soy reduces age-related muscle loss; evidence is conflicting. Details: Some clinical research in postmenopausal adults shows that consuming soy protein containing isoflavones 99 mg daily for 12 months does not improve hand grip strength or physical performance when compared with a milk protein placebo (75283). However, another small clinical study in older adults with low muscle mass living in China shows that taking soy, or a whey-soy blended protein, 16 grams daily for 6 months, slightly attenuates muscle loss when compared with no intervention (105603).
• Stroke. It is unclear if oral soy improves outcomes and overall function in people who have had a stroke. Details: One small clinical study shows that older adults with a history of stroke who consumed soy milk 500 mL daily while participating in a rehabilitation program had greater improvements in hand grip strength, 8-feet walking speed, walking performance, and 6-minute walk test after 8 weeks when compared with placebo. However, consuming soy milk did not lead to greater improvements in lean mass or overall short physical performance battery (SPPB) scores when compared with placebo (100321).
• Thyroid cancer. It is unclear if dietary soy reduces the risk for thyroid cancer. Details: Epidemiological research has found that high dietary intake of soy is associated with a reduced risk of thyroid cancer when compared with lower intake (7662,12041).
• Vaginal atrophy. It is unclear if topical soy improves vaginal atrophy. Details: A small clinical study in postmenopausal adults with vaginal atrophy shows that applying one gram of soy extract 4% vaginal gel daily for 12 weeks reduces vaginal dryness and pain during sexual intercourse and improves vaginal endometrial thickness when compared with placebo (90964).
• Wrinkled skin. Small studies suggest that oral and topical soy might reduce wrinkles. Details: A small clinical study in middle-aged females shows that consuming soy isoflavone 40 mg daily for 12 weeks improves skin elasticity and the appearance of fine wrinkles when compared with placebo (75388). Another small clinical study in females with photodamaged skin shows that applying a soy moisturizer containing soybean trypsin inhibitor and Bowman-Birk protease inhibitor (Aveeno Positively Radiant Daily Moisturizer, Johnson & Johnson CCI) twice daily for 12 weeks improves skin pigmentation, fine lines, texture, tone, and appearance when compared with a placebo moisturizer (75410). More evidence is needed to rate soy for these uses.

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Some alpha hydroxy acids are used topically, while others are used orally, intravaginally, or by inhalation. See specific monographs for safety information.

PREGNANCY AND LACTATION:
See specific monographs for safety information.

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LIKELY SAFE ...when used orally and appropriately. BCAAs 12 grams daily have not been associated with significant adverse effects in studies lasting for up to 2 years (68,72,73,74,10117,10146,10147,37120,92643,97531,103351,103352). ...when used intravenously and appropriately. BCAAs are an FDA-approved injectable product (13309).

CHILDREN: LIKELY SAFE
when used orally in dietary amounts of 71-134 mg/kg daily (11120,13308).

CHILDREN: POSSIBLY SAFE
when larger, supplemental doses are used orally and appropriately for up to 6 months (13307,13308,37127).

PREGNANCY:
Insufficient reliable information available; avoid using amounts greater than those found in food. Although adverse effects have not been reported in humans, some animal research suggests that consumption of supplemental isoleucine, a BCAA, during the first half of pregnancy may have variable effects on birth weight, possibly due to abnormal placental development (103350).

LACTATION:
Insufficient reliable information available; avoid using amounts greater than those found in food. Although the safety of increased BCAA consumption during lactation is unclear, some clinical research suggests that a higher concentration of isoleucine and leucine in breastmilk during the first 6 months postpartum is not associated with infant growth or body composition at 2 weeks, 2 months, or 6 months (108466).

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LIKELY SAFE ...when used orally and appropriately. Guar gum has been safely used in doses up to 15 grams daily for up to two years (10326,10897,12541,12543,12544,12548,54212,54245,54260,54275)(54333,93617,93619,93622,101888). Doses up to 20 grams daily have been safely used for up to 51 weeks (10896,12545,12547,54314). Guar gum has Generally Recognized as Safe (GRAS) status as a food additive in the US (4912).

CHILDREN: POSSIBLY SAFE
when used orally and appropriately. Guar gum has been safely used in doses of 4-5 grams daily for 4 weeks in children 6-16 years of age (93605,93615). Guar gum 3 grams daily for 4 weeks has been safely used in children 4-6 years of age (93605).

PREGNANCY: POSSIBLY SAFE
when used orally and appropriately in medicinal amounts. Guar gum has been safely used at doses of 5-15 grams daily for up to 4 weeks during pregnancy (54209,54356).

LACTATION:
There is insufficient reliable information available about the safety of using medicinal amounts of guar gum during lactation; avoid using.

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LIKELY SAFE ...when soy protein is used orally and appropriately. Soy protein products in doses up to 60 grams, providing up to 185 mg isoflavones, daily have been safely used in studies lasting up to 16 weeks (842,2293,2294,2296,3025,3402,3977,4755,6412,8530)(10372,11805).

POSSIBLY SAFE ...when soy extracts are used orally and appropriately, short-term. Soy extracts containing concentrated isoflavones in doses of 35-120 mg daily have been used with apparent safety for up to 6 months (4751,6455,7802,12040,12048,13209,95994,95999).

CHILDREN: LIKELY SAFE
when consumed in amounts commonly found in foods or as a component of infant formula (3400,4912,7331). Soy milk that's not designed for infants should not be used as a substitute for infant formula. Regular soy milk can lead to nutrient deficiencies (12045). Most evidence shows that exposure to soy formula or other soy products in infancy does not cause early onset of puberty or health or reproductive problems later in life (7331,11080,108245). However, some small cohort studies have suggested that higher soy intake during childhood may be associated with an increased risk of precocious puberty (108240) and may be weakly correlated with the development of breasts in children less than 2 years of age (75520). This is in contrast to an observational study in Chinese children ages 7-9 years which suggests that higher soy intake is associated with delayed puberty (108252). One small cohort study has also found that use of soy infant formula may be associated with an increased risk of endometriosis in adulthood, although endometriosis was also correlated with prematurity, which may have confounded the findings (101803).

CHILDREN: POSSIBLY UNSAFE
when used orally as an alternative to cow's milk in children with severe milk allergy (75359). Although soy protein-based infant formulas are often promoted for children with milk allergy, children with a severe allergy to cow's milk are also frequently sensitive to soy protein (9883). There is insufficient reliable information available about the safety of soy products when used in amounts higher than typical food quantities for children.

PREGNANCY: LIKELY SAFE
when used orally in amounts commonly found in foods (4912).

PREGNANCY: POSSIBLY UNSAFE
when used orally in medicinal amounts. Soy contains mildly estrogenic constituents (3373,3988,3989,3990,3994,6029,75303). Theoretically, therapeutic use of soy might adversely affect fetal development; avoid using.

LACTATION: LIKELY SAFE
when used orally in amounts commonly found in foods (4912). A single 20-gram dose of roasted soybeans, containing 37 mg isoflavones, produces four to six times less isoflavones in breast milk than provided in a soy-based infant formula (2290). There is insufficient reliable information available about the safety of long-term use of therapeutic amounts of soy during lactation.

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ANTIDIABETES DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = B Theoretically, BCAAs might alter the effects of antidiabetes medications.  Details Some evidence suggests that BCAAs might stimulate insulin release (10105,10110,10113,10114,10118). However, a small clinical study in adults with liver cirrhosis and high nocturnal levels of blood glucose suggests that BCAAs might increase blood glucose levels (103348).

LEVODOPA Interaction Rating = Major Do not take this combination. Severity = High •  Occurrence = Probable •  Level of Evidence = B BCAAs in large doses can reduce the effects of levodopa.  Details BCAAs may compete with levodopa for transport systems in the intestine and brain and decrease the effectiveness of levodopa (66,2719). Small clinical studies how that concomitant ingestion of protein or high doses of leucine or isoleucine (100 mg/kg) and levodopa can exacerbate tremor, rigidity, and the "on-off" syndrome in patients with Parkinson disease (3291,3292,3293,3294).

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DIGOXIN (Lanoxin) Interaction Rating = Minor Be watchful with this combination. Severity = Insignificant •  Occurrence = Possible •  Level of Evidence = B Guar gum might slow digoxin absorption, but it does not seem to impact how much digoxin is absorbed overall.  Details Two small studies in healthy volunteers show no change in the overall extent of digoxin absorption, although early absorption was slowed, when taken with guar gum (533,25074).

ETHINYL ESTRADIOL Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, guar gum might reduce the absorption of ethinyl estradiol, potentially decreasing its effectiveness.  Details Animal research shows that taking guar gum with ethinyl estradiol decreases ethinyl estradiol absorption (12421). However, this effect has not been reported in humans.

METFORMIN (Glucophage) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = B Guar gum might reduce the absorption of metformin, potentially decreasing its effectiveness.  Details A small study in healthy volunteers shows that guar gum reduces the absorption rate of metformin (532,12546).

ORAL DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = B Guar gum might reduce the absorption of some oral drugs, potentially decreasing their effectiveness.  Details Clinical research shows that guar gum reduces or slows absorption of medications such as penicillin and metformin (532,533). To avoid changes in absorption, take guar gum 30-60 minutes after oral medications.

PENICILLIN Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Probable •  Level of Evidence = B Guar gum might reduce the absorption of penicillin, potentially decreasing its effectiveness.  Details A small clinical study in healthy volunteers shows that taking guar gum with penicillin results in decreased penicillin absorption and reduced penicillin levels (533).

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ANTIBIOTIC DRUGS Interaction Rating = Minor Be watchful with this combination. Severity = Mild •  Occurrence = Possible •  Level of Evidence = D Theoretically, antibiotics may decrease the activity of soy isoflavones.  Details Intestinal bacteria are responsible in part for converting soy isoflavones into their active forms. Antibiotics may decrease the amount of intestinal bacteria and decrease its ability to convert isoflavones (7657).

ANTIDIABETES DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = A Soy can lower blood glucose and have additive effects with antidiabetes drugs.  Details Clinical research shows that whole soy diets and soy-based meals reduce fasting glucose levels in diabetic and non-diabetic individuals (75268,75296,75378,75493,96001). Also, individuals following a soy-based meal replacement plan seem to require lower doses of sulfonylureas and metformin to manage blood glucose levels when compared with individuals following a diet plan recommended by the American Diabetes Association (75268).

ANTIHYPERTENSIVE DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = A Theoretically soy protein may have additive effects with antihypertensive drugs and increase the risk of hypotension.  Details Although some contradictory research exists (14254), most clinical evidence suggests that consuming soy protein modestly reduces systolic and diastolic blood pressure in individuals with prehypertension or hypertension (13139,75482).

CAFFEINE Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, soy might reduce the clearance of caffeine.  Details Soy contains genistein. Taking genistein 1 gram daily for 14 days seems to inhibit caffeine clearance and metabolism in healthy females (23582). This effect has been attributed to inhibition of the cytochrome P450 1A2 (CYP1A2) enzyme, which is involved in caffeine metabolism. It is unclear if this effect occurs with the lower amounts of genistein found in soy.

CYTOCHROME P450 2C9 (CYP2C9) SUBSTRATES Interaction Rating = Minor Be watchful with this combination. Severity = Moderate •  Occurrence = Unlikely •  Level of Evidence = D Soy might modestly induce CYP2C9 enzymes. However, this effect does not seem to be clinically significant.  Details In vitro research suggests that an unhydrolyzed soy extract might induce CYP2C9. However, the significance of this interaction is likely minimal. In healthy females taking a specific extract of soy (Genistein Soy Complex, Source Naturals), blood levels of losartan, a CYP2C9 substrate, were not significantly affected (16825).

DIURETIC DRUGS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, soy might have additive effects when used with diuretic drugs.  Details Animal research suggests that genistein, a soy isoflavone, increases diuresis within 6 hours of subcutaneous administration in rats. The effects seem to be similar to those of furosemide (75604). This effect has not been reported in humans.

ESTROGENS Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = D Theoretically, soy might competitively inhibit the effects of estrogen replacement therapy.  Details Soy contains phytoestrogens and has been shown to have estrogenic activity in some patients (3860). Although this has not been demonstrated in humans, theoretically, concomitant use of soy with estrogen replacement therapy might reduce the effects of the estrogen replacement therapy.

LEVOTHYROXINE (Synthroid, others) Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = B Soy products might reduce the absorption of levothyroxine in some patients.  Details Preliminary clinical research and a case report suggest that soy-based formulas inhibit the absorption of levothyroxine in infants with congenital hypothyroidism (20636,20637,75548,90959). A levothyroxine dosage increase may be needed for infants with congenital hypothyroidism while using soy-based formulas, and the dose may need to be reduced when soy-based formulas are no longer administered. However, in postmenopausal adults, clinical research shows that taking a single dose of soy extract containing isoflavones 60 mg along with levothyroxine does not affect the oral bioavailability of levothyroxine (95996).

MONOAMINE OXIDASE INHIBITORS (MAOIs) Interaction Rating = Major Do not take this combination. Severity = High •  Occurrence = Likely •  Level of Evidence = C Taking soy products containing high amounts of tyramine along with MAOIs can increase the risk of hypertensive crisis.  Details Fermented soy products such as tofu and soy sauce contain tyramine, a naturally occurring chemical that affects blood pressure regulation. The metabolism of tyramine is decreased by MAOIs. Consuming more than 6 mg of tyramine while taking an MAOI can increase the risk of hypertensive crisis (15649). The amount of tyramine in fermented soy products is usually less than 0.6 mg per serving; however, there can be significant variation depending on the specific product used, storage conditions, and length of storage. Storing one brand of tofu for a week can increase tyramine content from 0.23 mg to 4.8 mg per serving (15649,15701,15702). Advise patients taking MAOIs to avoid fermented soy products that contain high amounts of tyramine.

PROGESTERONE Interaction Rating = Moderate Be cautious with this combination. Severity = Moderate •  Occurrence = Possible •  Level of Evidence = A Theoretically, combining soy isoflavones with transdermal progesterone may worsen bone density.  Details Clinical research suggests that significant bone loss may occur in females with osteoporosis who receive a combination of transdermal progesterone with soy milk containing isoflavones when compared with placebo, soy milk alone, or progesterone alone (69859).

TAMOXIFEN (Nolvadex) Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = B Theoretically, estrogenic soy isoflavones might alter the effects of tamoxifen.  Details Laboratory research suggests that genistein and daidzen, isoflavones from soy, can antagonize the antitumor effects of tamoxifen under some circumstances (7072,14362,8966); however, soy isoflavones might have different effects when used at different doses. A relatively low in vitro concentration of soy isoflavones such as 1 microM/L seems to interfere with tamoxifen, whereas high in vitro concentrations such as those >10 microM/L might actually enhance tamoxifen effects. People on a high-soy diet have soy isoflavones levels ranging from 0.1-6 microM/L. Until more is known, advise patients taking tamoxifen to avoid therapeutic use of soy products.

WARFARIN (Coumadin) Interaction Rating = Moderate Be cautious with this combination. Severity = High •  Occurrence = Possible •  Level of Evidence = D Theoretically, soy might interfere with the effects of warfarin.  Details Soy milk has been reported to decrease the international normalized ratio (INR) in a patient taking warfarin. The mechanism of this interaction is not known (9672). However, animal and in vitro research suggests that soy may also inhibit platelet aggregation (3992). Dosing adjustments for warfarin may be necessary.

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General ...Alpha hydroxy acids represent a group of natural chemicals, some of which can cause adverse effects. See specific monographs for safety information.

(Read more about ALPHA HYDROXY ACIDS (AHAs))

General ...Orally or intravenously, BCAAs are generally well tolerated.
Most Common Adverse Effects:
Orally: Abdominal distension, diarrhea, nausea, vomiting.
All routes of administration: High doses can lead to fatigue and loss of motor coordination.

Cardiovascular ...Orally, a single case of hypertension following the use of BCAAs has been reported (37143).

Dermatologic ...Orally, a single case of skin blanching following the use of BCAAs has been reported (681). It is not known if this effect was due to use of BCAAs or other factors.

Gastrointestinal ...Orally, BCAAs can cause nausea, vomiting, diarrhea, and abdominal distension. Nausea and diarrhea has been reported to occur in about 10% of people taking BCAAs (10117,37143,92643,97531).

Neurologic/CNS ...Orally and intravenously, BCAAs can cause fatigue and loss of motor coordination due to increased plasma ammonia levels (693,694,10117). Short-term use of 60 grams of BCAAs containing leucine, isoleucine, and valine for 7 days in patients with normal metabolic function seems to increase levels of ammonia, but not to toxic plasma levels (10117). However, liver function should be monitored with high doses or long-term use (10117). Due to the potential of increased plasma levels of ammonia and subsequent fatigue and loss of motor coordination, BCAAs should be used cautiously before or during activities where performance depends on motor coordination (75). Orally, BCAAs may also cause headache, but this has only been reported in one clinical trial (681).

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General ...Orally, guar gum is generally well tolerated.
Most Common Adverse Effects:
Orally: Abdominal pain, bloating, diarrhea, flatulence, heartburn, gas, and loose stools.
Serious Adverse Effects (Rare):
Orally: Severe esophageal and small bowel obstruction when taken with an inadequate amount of fluid.

Gastrointestinal ...Orally, guar gum may cause gastrointestinal adverse effects such as abdominal cramps, abdominal pain, bloating, diarrhea, flatulence, heartburn, gas, and loose stools (10896,10897,12541,12543,12545,12547,12548,54209,54212,54232)(54260,54314,54333,93617,93619). Gastrointestinal side effects can be minimized by starting with small doses and titrating up. In one clinical study, taste aversion to guar gum leading to withdrawal from the study has been reported (16736).
When guar gum is consumed with inadequate amounts of fluids, it can cause severe esophageal and small bowel obstruction. Tell patients to take guar gum with at least 8 ounces (250 mL) of water (602,54230).

Pulmonary/Respiratory ...Occupational exposure to guar gum may cause asthma (600,601).

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General ...Orally, soy is well tolerated.
Most Common Adverse Effects:
Orally: Bloating, constipation, diarrhea, and nausea.
All ROAs: Allergic reactions.

Endocrine ...In the 1950s and 1960s, cases of altered thyroid function, particularly goiter, were reported in children taking soy formula. However, adding iodine to soy formula or replacing soy flour in formula with soy protein isolate has nearly eliminated the risk of altered thyroid function in most infants (75353,75651).
In adults, there is some evidence that soy intake can alter thyroid function. Results from one clinical trial suggests that consuming soybeans 30 grams daily for as little as one month can increase thyroid-stimulating hormone (TSH) and decrease thyroxine, causing diffuse goiters, constipation, fatigue, and lethargy in some Japanese men. Recovery was achieved by discontinuing soybean intake (75206,75353). There is also some evidence that soy inhibits thyroid hormone synthesis resulting in increased secretion of TSH in some postmenopausal patients (7806). However, this seems to only occur in people with iodine deficiency (6466,75311). In postmenopausal patients with normal levels of iodine, taking a soy extract for 6 months does not seem to significantly affect thyroid hormone levels (13010).
Evidence from a single case-control study suggests that consumption of soy-based formulas may be associated with an observed three-fold increase in the risk of breast development in Puerto Rican children less than 2 years-old (75520). The correlation has been attributed to the estrogenic activity of soy. However, other risk factors, including a maternal history of ovarian cysts and consumption of meat products were also associated with the increased risk of breast development prior to 2 years of age. Also, the investigators noted that in over half of the cases, the child had not been exposed to soy or any of the other risk factors. Therefore, factors other than soy consumption may be more strongly associated with the increased risk of breast development prior to 2 years of age.

Gastrointestinal ...Gastrointestinal upset, such as constipation, diarrhea, bloating, and nausea are the most common side effects of soy (2297,11033,11082,15851,75491,95999). Reports of "bad taste" and taste intolerance have also been documented in clinical research (15851,39007,75491). Firmer stools, diarrhea, colitis, and intestinal mucosal damage has been reported in infants fed soy protein formula (75161,75448,75516,75525).

Genitourinary ...Orally, soy might increase discomfort during menstrual periods. Evidence from a small, retrospective cohort study has found that consuming soy formula as an infant may slightly increase the duration and discomfort of menstrual periods later in life. However, the investigators noted that these differences may not be clinically significant (7331).
Orally, frequent soy consumption might be a risk factor for uterine leiomyoma, an estrogen-dependent benign tumor located on the uterus. Observational research found that consumption of soy milk or soybean at least four times weekly is associated with a 7-fold increased odds of uterine leiomyoma (98869).
There is some concern that use of soy-based formulas in infants might result in long-term health complications. However, results from a retrospective cohort study has found that intake of soy-based formula as an infant does not affect height, weight, body mass index, pubertal maturation, menstrual history, or pregnancy history, nor does it increase the risk of reproductive organ disorders, hormonal disorders, libido dysfunction, or birth defects in the offspring of adults who received soy formula as infants (7331,11080). Additionally, research in adults shows that urinary phytoestrogens are not associated with endometriosis risk (101804). However, some population research has found that regular exposure to soy-based formulas during infancy is associated with an increased risk for endometriosis (101803).

Immunologic ...Orally, soy can cause allergic reactions such as skin rash and itching in some people (6412). In an 11-year-old female, allergy to soy protein resulting in a delayed itching papular rash was thought to be responsible for the reaction to injected benzathine benzylpenicillin containing possible soy protein-contaminated soy lecithin (96422).
Topically, soy-based ingredients were responsible for the development of hand atopic dermatitis in a young female using cosmetic lotions in the workplace. Percutaneous sensitization resulted in the development of anaphylaxis to oral soy (96000).

Neurologic/CNS ...Orally, one clinical study showed that insomnia was more common in postmenopausal adults taking soy isoflavone supplements when compared with those receiving placebo (9917). Some research suggests that dietary consumption of tofu during midlife might decrease cognitive function in later years. Evidence from one retrospective cohort study suggests that males who consume at least two servings of tofu weekly during midlife have increased risk of cognitive impairment in late life (19% vs. 4%) compared to those who consume tofu less frequently. Although the effect of tofu was considered to be marginal compared to other factors such as age, education, or history of stroke, results from the study suggest that the effect of significant midlife consumption of tofu is comparable to the effect of an age difference of 4 years or an education difference of 3 years. However, numerous other factors, such as lifestyle and health, could be involved (6415,6416). Therefore, these findings are too preliminary to be used as a basis for clinical recommendations.

Oncologic ...There is controversy about the role of soy in breast cancer. Population studies suggest that soy is protective against breast cancer. Asian females who eat a traditional diet high in soy seem to have a lower risk of developing breast cancer (4590,5939,9674). Early exploratory studies have suggested that soy stimulates proliferation of normal human breast tissue (3980,3981). However, taking a soy tablet containing 50 mg soy isoflavones daily for 12 months does not alter mammographic or breast MRI tissue density in adults at high risk of breast cancer, with non-endocrine treated breast cancer, or previously treated for breast cancer and without evidence of recurrence (95999).
There is some concern that soy supplements, but not soy foods, might increase the risk of endometrial hyperplasia due to its estrogenic effects. Population and clinical research suggests that soy foods do not have a proliferative effect on endometrial cells (7358,2429,7654,9676,9917), and increased dietary soy and phytoestrogens are associated with reduced endometrial cancer risk (7338,10372). However, the effects seem to be different with concentrated soy isoflavone extract. While taking products providing isoflavones 120 mg daily for 6 months does not increase endometrial thickening (13209), taking higher doses such as isoflavones 150 mg daily for 5 years might increase the risk of simple endometrial hyperplasia (12105). However, there is no evidence that soy isoflavones increase the risk of atypical hyperplasia which has a much higher risk of developing into endometrial cancer than simple endometrial hyperplasia (12105,90973).
There is also concern that increased soy intake increases the risk for other types of cancer. Some observational research has found that higher dietary intake of soy is associated with a higher risk for bladder cancer and pancreatic cancer (9677,105609).
A meta-analysis of results from cohort and case-control studies evaluating the risk of stomach cancer related to consumption of fermented soy products is unclear and inconclusive. The highest quality data from cohort studies suggests that these products have no significant effect on stomach cancer (7340,7341). More research is required to determine if soy products have any correlation with stomach cancer.

Pulmonary/Respiratory ...Inhaled soy dust and soy hull aeroallergen can trigger symptoms of asthma and allergic rhinitis (5084,5085,5086).

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