BPA Levels in Humans Are Underestimated: Study
FRIDAY, Dec. 6, 2019 (HealthDay News) -- Levels of the widely used chemical bisphenol A (BPA) in people's bodies are much higher than once thought, according to scientists who say they've created a more accurate way to measure them.
BPA is used in many plastic products, including food and drink containers, and animal studies have shown that it can interfere with hormones. Exposure to BPA in the womb has been linked to growth, metabolism, behavior and fertility problems, as well an increased risk of cancer.
The U.S. Food and Drug Administration, however, contends human exposure to BPA is at very low, and therefore, safe levels.
The new method developed by researchers and outlined in their study suggests that the measurements used by the FDA and other regulatory agencies underestimate BPA exposure by as much as 44 times.
"This study raises serious concerns about whether we've been careful enough about the safety of this chemical," said study co-author Patricia Hunt, a professor in the School of Molecular Biosciences at Washington State University.
"What it comes down to is that the conclusions federal agencies have come to about how to regulate BPA may have been based on inaccurate measurements," Hunt said in a university news release.
Co-author Roy Gerona is an assistant professor of medicine at the University of California, San Francisco. He said he hoped the findings would prompt other experts and labs to take a closer look and independently assess what is happening.
"BPA is still being measured indirectly through NHANES [U.S. National Health and Nutrition Examination Survey], and it's not the only endocrine-disrupting chemical being measured this way," Gerona said in the news release. "Our hypothesis now is that if this is true for BPA, it could be true for all the other chemicals that are measured indirectly."
The research was published Dec. 5 in The Lancet Diabetes & Endocrinology journal.
The Environmental Working Group outlines how to reduce your exposure to BPA.