Middle-aged women with higher blood concentrations of a common group of synthetic chemicals known as PFAS are at greater risk of developing high blood pressure than their peers who have lower levels of these substances, say University of Michigan researchers.
Called “forever chemicals,” PFAS (per- and polyfluoroalkyl substances) are used in everyday household items, such as shampoo, dental floss, cosmetics, nonstick cookware, food packaging, stain-resistant coatings for carpeting, upholstery, and clothing.
Even at low levels in the blood, research has shown that PFAS can have detrimental health effects. PFAS has been linked to cardiovascular risk, including endothelial dysfunction (impaired blood vessel function), oxidative stress, and elevated cholesterol.
“PFAS are known as ‘forever chemicals’ because they never degrade in the environment and contaminate drinking water, soil, air, food, and numerous products we consume or encounter routinely,” said Ning Ding, a postdoctoral researcher in epidemiology at the U-M School of Public Health. “One study estimated that two of the most common ‘forever chemicals’ are found in most household drinking water consumed by more than two-thirds of Americans.
“Women seem to be particularly vulnerable when exposed to these chemicals. Our study is the first to examine the association between ‘forever chemicals’ and hypertension in middle-aged women. Exposure may be an underappreciated risk factor for women’s cardiovascular disease risk.”
The U-M study, published in the American Heart Association journal Hypertension, used data from the Study of Women’s Health Across the Nation-Multi-Pollutant Study, a prospective study of women from diverse racial and ethnic backgrounds at midlife. The researchers examined blood concentrations of specific PFAS and the risk of high blood pressure.
Data included more than 1,000 women aged 45-56 who had normal blood pressure when they enrolled in the study. All participants were followed almost annually from 1999 to 2017. Participants were recruited from Boston, Pittsburgh, Southeast Michigan, Los Angeles, and Oakland, California, and they self-identified as Black (15%), Chinese (14%), Japanese (16%), or white (55%). All sites enrolled non-Hispanic white women in addition to one additional racial/ethnic group.
The analysis found:
- During 11,722 person-years of follow-up for all study participants, 470 women developed high blood pressure.
- Women with higher concentrations of specific PFAS were more likely to develop high blood pressure: Women in the highest one-third concentrations of perfluorooctane sulfonic acid, perfluorooctanoic acid, and 2-(N-ethyl-perfluorooctane sulfonamido) acetic acid had 42%, 47% and 42% higher risks, respectively, of developing high blood pressure, compared to women in the lowest one-third concentrations of these PFAS.
- Women in the highest one-third concentrations of all seven PFAS examined had a 71% increased risk of developing high blood pressure.
“It’s important to note that we examined individual PFAS as well as several PFAS together, and we found that the combined exposure to multiple PFAS had a stronger effect on blood pressure,” said Sung Kyun Park, associate professor of epidemiology and environmental health sciences at the U-M School of Public Health.
“Some states are beginning to ban the use of PFAS in food packaging and cosmetic and personal care products. Our findings make it clear that strategies to limit the widespread use of PFAS in products need to be developed. Switching to alternative options may help reduce high blood pressure risk in midlife women.
“We have known for some time that PFAS disrupts metabolism in the body, yet, we didn’t expect the strength of the association we found. We hope that these findings alert clinicians about the importance of PFAS and that they need to understand and recognize PFAS as an important potential risk factor for blood pressure control.”
The study included only middle-aged women, so the findings may not translate to men or to younger or older women. The authors note that more research is needed to confirm these associations and to address ways to reduce PFAS exposure.
Source: University of Michigan