Don’t Fall for the Myths About Soy

Don’t Fall for the Myths About Soy
(Elena Elisseeva/iStock)
Joel Fuhrman
1/16/2022
Updated:
1/16/2022
Contrary to the negative soy information floating about in today’s technological world, the scientific consensus shows soy is essentially beneficial.  Actually, soy is the subject of some of the worst health misinformation on the internet. We need to tune out this misinformation and follow the science. Greater intake of soy foods is linked to a decrease in the risk of breast cancer, prostate cancer, and cardiovascular disease.

Soy and Estrogen (The Primary Female Sex Hormone)

Soy contains phytoestrogens (“plant estrogens”) called isoflavones which are said to be weak estrogens, but it’s actually more complicated than that. Isoflavones have both estrogenic and anti-estrogenic effects. . The evidence suggests that, because of their complex relationship with different estrogen receptors, soy isoflavones have beneficial anti-estrogenic effects in breast tissue while also having beneficial estrogen-mimicking effects in bone tissue.

Does Soy Promote Breast Cancer?

No. Since estrogen causes breast cancer cells to proliferate, and cumulative estrogen exposure increases breast cancer risk, there was an early theory that there might be a link between soy foods and breast cancer.  At that time, however, in Asian countries, where soy was a staple food, breast cancer rates were much lower than those in the United States. This paradox launched hundreds of studies. The results of some individual studies were neutral, and, importantly, no studies in humans have suggested an increase in breast cancer risk; most show a decrease.

Overall, the research suggests that soy intake helps to protect against initial breast cancer development (especially postmenopausal breast cancer), breast cancer recurrence, and breast cancer mortality.  There is no more soy breast cancer controversy.

Important to note: soy appears to be most protective when eaten during adolescence, when breast tissue is most sensitive to influences from the diet and environment.

Does Soy Reduce the Risk of Other Cancers?

Yes. Soy isoflavones have additional anti-cancer effects. In a 2009 meta-analysis, higher soy intake was associated with a 26 percent decrease in prostate cancer risk.  Soy has also been linked to decreases in risk of lung, stomach, and colorectal cancers.

Do Soy Phytoestrogens Have Feminizing Effects on Men?

No, not at reasonable levels of intake. This internet frenzy seems to be based on sensationalized reports about one rare case of a man who developed breast swelling, who had been drinking three quarts of soy milk every day for over six months. When he stopped overconsuming soy, the issue resolved. Of course, nobody should eat or drink that much soy; nobody should even consume that much of any one food. Even in Asian countries, where soy intake is much higher than in Western countries, three quarts of soy milk would about 7-8 times the typical isoflavone intake.

This case is simply not relevant to people eating moderate amounts of soybeans, in edamame, tempeh or tofu, or one serving of soy milk, and scientific research documents the safety of that. A meta-analysis evaluated the data from 15 different placebo-controlled trials of soy foods, soy protein, or isoflavone supplements. The studies measured several indicators of testosterone levels, including total testosterone, free testosterone, and sex hormone binding globulin. There were no significant effects in these studies on men’s testosterone levels, estrogen levels, or sperm quality.

Another review of the studies looking at the potential feminizing effects of soy similarly concluded that there is no cause for concern. Furthermore, a recent observational study on couples using in vitro fertilization found that soy food and soy isoflavone intakes were not associated with rates of successful IVF outcomes, suggesting soy intake does not have any negative effects on male fertility.

Should We Only Eat Fermented Soy Products?

This is a myth, the origin of which appears to be because soybeans contain phytate. Phytate, present in legumes and grains, was once thought of as an anti-nutrient, but more recent research has found beneficial health effects of phytate, for bone health in particular.

Like in other beans, indigestible carbohydrate (fiber and resistant starch) in soybeans provides food for intestinal bacteria, and for some people fermentation of these carbohydrates in the colon may cause gas and discomfort. Fermentation of soy foods may reduce this discomfort, but you would also be reducing the beneficial prebiotic fibers. On the other hand, there is some evidence that we may receive some additional isoflavone benefits from fermented soy products.

Bottom line: both unfermented (tofu, edamame, unsweetened soy milk) and fermented (tempeh) soy foods can have a place in a Nutritarian diet.

Is Soy a Good Protein Powder Option? Does Soy Protein Raise IGF-1?

Concentrated soy protein and isolated soy protein, found in many protein powders and vegetarian burgers, is not health food. These processed, fractionated and concentrated soy foods are missing much of the nutritional value from the original soybean. Supplementation with soy protein powder can increase insulin-like growth factor 1 (IGF-1) in the blood.
IGF-1 is primarily elevated by animal protein.  ( Of all plant proteins, soy protein is the most similar to animal protein (most “complete”) in amino acid content and distribution, which is why soy protein powder is more likely to increase IGF-1 than other plant proteins (such as hemp protein powder).  However, soy protein supplementation tends to increase IGF binding proteins along with IGF-1, and therefore may not have a significant effect on free IGF-1. This means soy protein powders likely have less potent effects on IGF-1 signaling than whey and other animal proteins.

Is All Soy Genetically Modified, Even Organic Soy?

No. The USDA’s organic standards prohibit the use of genetically modified organisms in certified organic foods. In addition, they require certified organic farmers who plant organic soybeans and have neighboring genetically modified soybeans to take appropriate, farm-specific preventive measures to avoid cross-contamination and conduct testing.  Cross-pollination of non-GMO soybean plants by GMO plants is far less common than many people believe, and the assertion that all soy has been contaminated does not have the science to support it. In field trials, presence of the transgene in adjacent non-GMO soybean plants was a fraction of a percent (0.1-0.5%), and non-GMO soybean plants that were 10 meters away from the genetically modified plants showed no contamination with the transgene at all.

Which Soy Foods Should I Eat, and How Much?

Edamame, tempeh, and tofu are healthful foods that can be included in a Nutritarian diet with all other kinds of beans. Unsweetened soy milk without additives is useful in recipes for smoothies, salad dressings, and sauces.

The association between minimally processed soy intake and a reduction in the risk of cancers has been reported over and over again. However, keep in mind that because some is good doesn’t mean eating a soy-based diet is healthful; we should not eat lots of soybeans to the exclusion of other beans and other health-promoting foods. Two to four servings a week is reasonable.  Variety of natural plants is crucial for obtaining diversity in protective phytochemicals. Avoid isolated and concentrated soy protein; eat a variety of beans such as black beans, chickpeas, and lentils; and enjoy some edamame, tofu and tempeh as well.

This article was originally published on DrFuhrman.com

References

  1. Messina M. Soy foods, isoflavones, and the health of postmenopausal women. Am J Clin Nutr 2014, 100 Suppl 1:423S-430S.
  2. Messina M. Insights gained from 20 years of soy research. J Nutr 2010, 140:2289S-2295S.
  3. Oseni T, Patel R, Pyle J, Jordan VC. Selective estrogen receptor modulators and phytoestrogens. Planta Med 2008, 74:1656-1665.
  4. Fritz H, Seely D, Flower G, et al. Soy, red clover, and isoflavones and breast cancer: a systematic review. PLoS One 2013, 8:e81968.
  5. Trock BJ, Hilakivi-Clarke L, Clarke R. Meta-analysis of soy intake and breast cancer risk. J Natl Cancer Inst 2006, 98:459-471.
  6. Wu AH, Yu MC, Tseng CC, Pike MC. Epidemiology of soy exposures and breast cancer risk. Br J Cancer 2008, 98:9-14.
  7. Messina M, Hilakivi-Clarke L. Early intake appears to be the key to the proposed protective effects of soy intake against breast cancer. Nutr Cancer 2009, 61:792-798.
  8. Higdon J, Drake VJ: Soy Isoflavones. In An Evidence-Based Approach to Dietary Phytochemicals and Other Dietary Factors. 2 edition. New York: Thieme; 2013: 96-108
  9. Hwang YW, Kim SY, Jee SH, et al. Soy food consumption and risk of prostate cancer: a meta-analysis of observational studies. Nutr Cancer 2009, 61:598-606.
  10. Yang WS, Va P, Wong MY, et al. Soy intake is associated with lower lung cancer risk: results from a meta-analysis of epidemiologic studies. Am J Clin Nutr 2011, 94:1575-1583.
  11. Kim J, Kang M, Lee JS, et al. Fermented and non-fermented soy food consumption and gastric cancer in Japanese and Korean populations: a meta-analysis of observational studies. Cancer Sci 2011, 102:231-244.
  12. Yan L, Spitznagel EL, Bosland MC. Soy consumption and colorectal cancer risk in humans: a meta-analysis. Cancer Epidemiol Biomarkers Prev 2010, 19:148-158.
  13. Martinez J, Lewi JE. An unusual case of gynecomastia associated with soy product consumption. Endocr Pract 2008, 14:415-418.
  14. Messina M. Soybean isoflavone exposure does not have feminizing effects on men: a critical examination of the clinical evidence. Fertil Steril 2010, 93:2095-2104.
  15. Hamilton-Reeves JM, Vazquez G, Duval SJ, et al. Clinical studies show no effects of soy protein or isoflavones on reproductive hormones in men: results of a meta-analysis. Fertil Steril 2010, 94:997-1007.
  16. Minguez-Alarcon L, Afeiche MC, Chiu YH, et al. Male soy food intake was not associated with in vitro fertilization outcomes among couples attending a fertility center. Andrology 2015, 3:702-708.
  17. Lopez-Gonzalez AA, Grases F, Monroy N, et al. Protective effect of myo-inositol hexaphosphate (phytate) on bone mass loss in postmenopausal women. Eur J Nutr 2013, 52:717-726.
  18. Lopez-Gonzalez AA, Grases F, Perello J, et al. Phytate levels and bone parameters: a retrospective pilot clinical trial. Front Biosci (Elite Ed) 2010, 2:1093-1098.
  19. Lopez-Gonzalez AA, Grases F, Roca P, et al. Phytate (myo-inositol hexaphosphate) and risk factors for osteoporosis. J Med Food 2008, 11:747-752.
  20. Arriero Mdel M, Ramis JM, Perello J, Monjo M. Inositol hexakisphosphate inhibits osteoclastogenesis on RAW 264.7 cells and human primary osteoclasts. PLoS One 2012, 7:e43187.
  21. Suarez FL, Springfield J, Furne JK, et al. Gas production in human ingesting a soybean flour derived from beans naturally low in oligosaccharides. Am J Clin Nutr 1999, 69:135-139.
  22. Takagi A, Kano M, Kaga C. Possibility of breast cancer prevention: use of soy isoflavones and fermented soy beverage produced using probiotics. Int J Mol Sci 2015, 16:10907-10920.
  23. Gann PH, Kazer R, Chatterton R, et al. Sequential, randomized trial of a low-fat, high-fiber diet and soy supplementation: effects on circulating IGF-I and its binding proteins in premenopausal women. Int J Cancer 2005, 116:297-303.
  24. Khalil DA, Lucas EA, Juma S, et al. Soy protein supplementation increases serum insulin-like growth factor-I in young and old men but does not affect markers of bone metabolism. J Nutr 2002, 132:2605-2608.
  25. Dewell A, Weidner G, Sumner MD, et al. Relationship of dietary protein and soy isoflavones to serum IGF-1 and IGF binding proteins in the Prostate Cancer Lifestyle Trial. Nutr Cancer 2007, 58:35-42.
  26. McLaughlin JM, Olivo-Marston S, Vitolins MZ, et al. Effects of tomato- and soy-rich diets on the IGF-I hormonal network: a crossover study of postmenopausal women at high risk for breast cancer. Cancer Prev Res (Phila) 2011, 4:702-710.
  27. Young VR, Pellett PL. Plant proteins in relation to human protein and amino acid nutrition. Am J Clin Nutr 1994, 59:1203S-1212S.
  28. Abud S, de Souza PI, Vianna GR, et al. Gene flow from transgenic to nontransgenic soybean plants in the Cerrado region of Brazil. Genet Mol Res 2007, 6:445-452.
  29. Yoshimura Y, Matsuo K, Yasuda K. Gene flow from GM glyphosate-tolerant to conventional soybeans under field conditions in Japan. Environ Biosafety Res 2006, 5:169-173.
  30. Ray JD, Kilen TC, Abel CA, Paris RL. Soybean natural cross-pollination rates under field conditions. Environ Biosafety Res 2003, 2:133-138.
Joel Fuhrman, M.D. is a board-certified family physician, seven-time New York Times best-selling author and internationally recognized expert on nutrition and natural healing. He specializes in preventing and reversing disease through nutritional methods.
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