WVU study: Diabetics exposed to common household chemicals have lower heart disease rates
MORGANTOWN, W.Va.–Chemicals found in nonstick cookware, cleaning products and paint may help lead to new treatments for heart disease in diabetic adults, according to a West Virginia University epidemiologist’s research.
Kim Innes, of the WVU School of Public Health, and her colleagues recently discovered that greater exposure to perfluoroalkyl substances was associated with lower rates of existing coronary heart disease in adults with diabetes. PFAS, considered a public health threat by the Centers for Disease Control and Prevention, are manufactured chemicals that were popularized by various industries in the 1940s because of their ability to repel oil and water.
In this study, researchers investigated the association of blood PFAS levels to coronary heart disease using data gathered as part of the C8 Health Project. A large, community-based study launched in 2005, the C8 Health Project was created to address the potential health effects stemming from contamination of West Virginia and Ohio drinking water with the PFAS perfluorooctanoic acid (also called C8) between 1950 and 2004.
Of the 5,270 adults with diabetes in this study–led by Baqiyyah Conway, University of Texas Health Science Center at Tyler–1,489 had been diagnosed with coronary heart disease previously, and 3,781 had not. The researchers investigated the relation between blood levels of four PFAS and coronary heart disease, considering the participants’ age, sex, race, BMI, smoking history, duration of diabetes, kidney function, chronic kidney disease and other traits.
“In this cross-sectional study of adults with diabetes, the likelihood of reporting a diagnosis of coronary heart disease declined with increasing blood levels of four PFAS after adjustment for demographics, BMI and other factors,” Innes said.
The four PFAS were also inversely related to the likelihood of coronary heart disease in adults without diabetes, but these associations were far less pronounced than in people with the condition.
It remains unknown exactly how PFAS might lower heart disease risk, but as Innes pointed out, “several factors could explain the inverse association.” For example, PFAS may reduce inflammation. It’s also possible that PFAS increases the body’s sensitivity to insulin or ability to transport oxygen. All of these effects might promote heart health.
Because the study used data collected at a single point in time–rather than multiple times, over several years–it could not determine whether exposure to PFAS caused heart disease rates to drop. It could only establish an association between PFAS exposure and lower heart disease rates. But the research team is planning studies to fill this knowledge gap.
“The next step will be to conduct additional longitudinal studies in the C8 and other cohorts in order to assess the relation of baseline PFAS blood levels to subsequent risk for incident coronary heart disease in those with and without diabetes,” Innes said. “Such research will help determine if the inverse association observed in this study might reflect a causal association between PFAS and the development of coronary heart disease.”
If longitudinal studies bear out the current findings, they may inform new therapies for preventing coronary heart disease in people with diabetes.
“The findings of this paper in no way suggest that PFAS should be released into drinking water or the environment,” Innes said. “With few exceptions, you wouldn’t want any substance–including those with certain established health benefits, such as coffee and aspirin–contaminating the water. It is important to remember that PFAS are complex compounds that may have both positive and negative effects on health.”
Research reported in this publication was supported by the National Institutes of Health through the West Virginia Clinical and Translational Science Institute. WVCTSI is funded by an IDeA Clinical and Translational grant from the National Institute of General Medical Sciences, under Award Number U54GM104942, to support the mission of building clinical and translational research infrastructure and capacity to impact health disparities in West Virginia. The findings and conclusions in this article are those of the authors and do not necessarily represent the official position of NIH or WVCTSI.
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