Why BPA (Synthetic Estrogen) Hasn’t Been Banned

“The number of new chemicals is increasing exponentially”—we’re talking 12,000 new substances a day. Yet, data aren’t available on the hazards of even some of the high volume chemicals. BPA is one of the highest volume chemicals, with billions of pounds produced each year. And, studies have “raised concerns about its possible implication in the [cause] of some chronic diseases, such as diabetes, obesity, reproductive disorders, cardiovascular diseases, birth defects, chronic respiratory and kidney diseases and breast cancer.”

A new study on the health implications of BPA comes out nearly every week. BPA was first developed over a hundred years ago as a synthetic estrogen. But it wasn’t until the 1950s that industry realized it could be used to make polycarbonate plastic, and it rapidly became one of the most used chemicals worldwide, even though it was recognized to have hormonal effects. About a billion pounds are also used to line food and beverage cans—especially, it seems, in tuna and condensed soups.

And now, we basically all have BPA in our bodies, and our children’s bodies. But, not to worry; the government says up to 50 a day is safe; 50 micrograms per kilogram. And, even those working in Chinese BPA factories don’t get exposed to more than like 70 times lower than that safety limit. Okay, then, why did exposure seem to affect the male workers’ sperm counts?

how-to-avoid-bpaIn the U.S., the general population only gets less than like a thousand times lower than the safety limit. Yet, still, we seem to be seeing “adverse effects on thyroid function, weight control, blood sugar control, cardiovascular disease, liver function, and immune function”—even at those incredibly low doses. So, “[t]he fact that there are significant adverse effects in populations exposed to BPA at concentrations [thousands of] times lower than the [official tolerable daily limit] indicates that the safe exposure to BPA may be much lower than previously thought in humans.” Yet, the limit hasn’t been changed. It’s been banned from baby bottles and sippy cups, but nearly unlimited doses are still apparently okay for everyone else. What’s the disconnect here?

It has to do with the fascinating world of low-dose effects of hormone-disrupting chemicals. “For decades, [these chemicals] “have challenged traditional concepts in toxicology”—particularly the old adage that it’s “the dose makes the poison,” the concept “that lower exposures to a hazardous compound will, therefore, always generate lower risks.” That’s “the core assumption underlying [our] system of chemical-safety testing.” They start dosing lab animals with super high amounts, and then keep lowering the dose until whatever adverse effects disappear; then, add a safety buffer, and assume everything below that dose should be okay, assuming the curve looks like this. You know, the higher the dose, the higher the effect. But, hormone-disrupting chemicals can have all sorts of “curious curves.” Basically, how could something have more of an effect at a lower dose?

Think about a hormone, and its receptors in the body. At low levels of the hormone, like going from 0 to 1, the receptors can fill up quickly. But, once they’re almost all filled up, going from 4 to 5, adding really high doses may not change things much. Let’s use an actual BPA example. This was a study to see if BPA suppressed an obesity-protective hormone in fat samples taken from breast reduction and tummy tuck patients. As you can see, at a hundred nanomoles of BPA (I feel like a weatherman here!), but at a hundred nanomoles of BPA, you can see hormone levels are no lower than they are at 0 BPA. And, since most people have levels like between 1 and 20, then BPA must be safe. But, here’s the actual graph. So, no suppression at 0; no suppression at 100. But, right where levels are in people’s bodies, BPA appears to cut hormone release nearly in half.

learn-about-bpa-and-breast-cancerAs the world’s oldest, largest, and most active organization devoted to research on hormones concluded, “even infinitesimally low levels of exposure—indeed, any level of exposure at all—may cause [problems],” nearly three billion dollars’ worth of problems every year, just counting the estimated effects of BPA on childhood obesity and heart disease alone.

Now, there are alternatives that the industry could use; the problem, though, is that they may cost two cents more.

Doctor’s Note

BPA isn’t the only problem with canned tuna. Check out:

What can we do to avoid endocrine-disrupting chemicals? See, for example, Avoiding Adult Exposure to Phthalates, and How to Avoid the Obesity-Related Plastic Chemical BPA.

Alkylphenols are another group of endocrine disrupting chemicals. Learn more about them here:

Featured Image Source Mother Jones

In health,
Michael Greger, M.D.

Michael Greger, M.D., is a physician, New York Times bestselling author, and internationally recognized professional speaker on a number of important public health issues. Dr. Greger has lectured at the Conference on World Affairs, the National Institutes of Health, and the International Bird Flu Summit, testified before Congress, appeared on The Dr. Oz Show and The Colbert Report, and was invited as an expert witness in defense of Oprah Winfrey at the infamous “meat defamation” trial. Currently Dr. Greger proudly serves as the Director of Public Health and Animal Agriculture at the Humane Society of the United

Top 10 Chemicals That May Cause Breast Cancer (& Chemicals To Avoid)

Breast Cancer Caused By Chemicals ExplainedYou may be surprised to know that the food you eat and the garden you love to walk in could lead to Breast Cancer.

Modern scientific evidence has linked some toxic chemicals to the Breast Cancer. Some of these toxic chemicals are commonly used in Food Packaging, Food Containers, and Water supplies, whereas others are well-known pesticides.

To avoid the Breast cancer risk and have a healthy life ahead we should avoid these toxic chemicals. Some of them are mentioned here:

Chemicals To Avoid To Prevent Breast CancerCHEMICALS TO BE AVOIDED
  •    Bisphenol A (BPA)

It is present in reusable plastic containers and the linings of food and beverage cans. Evidence shows that BPA is associated with breast and other cancers and many other diseases including obesity, heart disease and reproductive problems, etc. The percentage of BPA in the bodies of American residents is alarming, up to 93% that poses a serious health risk for them.

What to do?

We can control this toxic chemical from harming ourselves by AVOIDING the use of canned foods and plastic containers.

  •  Phthalates

These can be present in plastic containers. Studies have shown the association of phthalates in hormonal changes causing early puberty in girls which is a risk factor for breast cancer.

What to do?

STOP using plastic containers, toys, bottled water, plastic wraps, etc.

  •    Polyvinyl chloride (PVC)

It is used for packaging foods and building materials. It releases vinyl chloride. It is an important human carcinogen and has been linked to breast and other cancers.

What to do?

Avoid food packaging and check building materials for PVC before buying.

  •    Styrene

It is released from Styrofoam food trays, egg cartons, disposable cups and containers if heated or under pressure. Styrene is a possible human and animal carcinogen.

What to do?

Avoid any product made from Styrofoam

  •    Tetrachloroethylene

It is a chlorinated solvent used in dry cleaning, industrial cleaning and in making of other products, also in drinking water. It was found to be present in significant amount in the bodies of Americans. It is a known human carcinogen responsible for breast and other cancers.

What to do?

Avoid dry cleaning solvents and other products containing Tetrachloroethylene.

Breast Cancer Pesticide Free GardenPESTICIDES TO BE AVOIDED

Research has also concluded that some pesticides and herbicides also cause proliferation of the cancer cells of breast cancer. Some of there are


It is also known as DDT. It is applied to the crops such as corn, sorghum, etc. to control the weed production. In the United States, its concentration in corn crops and drinking water is increasing rapidly. Atrazine is found to be associated with tumors of the breast, prostate inflammation and delayed puberty in animals. Recent research also shows its association with prostate cancer in humans.

What to do?

We can avoid it by packaging food safely in glass or other non-plastic containers.


DDT is banned worldwide in agriculture, but it is still used in some countries for malaria. Research suggests that it can increase the risk of breast cancer even on much earlier exposure.

What to do?

Avoid using corn products from untrusted local crops.


It is used for long by the US and Canadian meat industries as a synthetic growth hormone. It resembles the hormone estradiol and causes significant growth of cancer cells on exposure. Zeranol and Zeranol treated meat is now banned in Europe.

What to do?

We should use organic meat and thoroughly wash it before use.


Bovine Growth hormone is a major problem because of its carcinogenic effects. A lot of studies have shown the link between the intake of dairy products and breast cancer in premenopausal women.

What to do?

We can replace cow milk with the coconut milk or almond milk etc. to avoid rBGH/RBST. A lot of other choices are now available that offer rBGH-free products.

Source: Breast Cancer Fund exposes the cancer-causing chemicals lurking in food, July, 2015

Dr. Adem Gunes Dr. Adem Gunes has built the world’s largest database of scientifically tested natural substances with proven effects in cancer treatments. In 2009, he was appointed as the Chief Physician of ProLife Clinic in Innsbruck, Austria, and played a key role in the establishment of the research laboratory. He is also the co-founder of the first Austrian hyperthermia center. Now, Dr. Adem works closely with cancer patients from around the world (including Germany, Thailand, Dubai) to recommend them a complementary cancer clinic or to create a personalized care plan for patients to follow at home.

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