Exposure to chemicals in environment liked to onset of early menopause
March 24th, 2011 - 11:22 am ICT by ANIWashington, Mar 24 (ANI): A recent study found that higher levels of perfluorocarbons (PFCs) in the body are associated with increased odds of having experienced menopause in women between 42 and 64 years old.
Women in this age group with high levels of PFCs also had significantly lower concentrations of estrogen when compared to women who had low levels of PFCs.
PFCs are man-made chemicals used in a variety of household products including food containers, clothing, furniture, carpets and paints. Their broad use has resulted in widespread dissemination in water, air, soil, plant life, animals and humans, eve in remote parts of the world. A probability sample of U.S. adults, found measurable concentrations of PFCs in 98 percent of the participants tested.
“The current study is the largest ever to be done on the endocrine-disrupting effects of perfluorocarbons in human women,” said Sarah Knox, of the West Virginia University School of Medicine in Morgantown and lead author of the study.
“Our data shows that after controlling for age, women of perimenopausal and menopausal age in this large population are more likely to have experienced menopause if they have higher serum concentrations of PFCs than their counterparts with lower levels.”
In this study of 25,957 women aged 18 to 65 years, researchers ascertained menopausal status of participants and then measured their serum concentration levels of PFCs and estradiol.
They found that there was an association between PFC exposure, decreased estradiol and early menopause in women over age 42. There was also an inverse association between PFC levels and estradiol in women of child bearing age but this association was not statistically significant.
“There is no doubt that there is an association between exposure to PFCs and onset of menopause, but the causality is unclear,” said Knox. “Part of the explanation could be that women in these age groups have higher PFC levels because they are no longer losing PFCs with menstrual blood anymore, but, it is still clinically disturbing because it would imply that increased PFC exposure is the natural result of menopause.”
PFCs are known to have multiple adverse health outcomes including increased cardiovascular risk and impairment of the immune system.
“Our findings suggest that PFCs are associated with endocrine disruption in women and that further research on mechanisms is warranted,” said Knox.
The study has been accepted for publication in The Endocrine Society’s Journal of Clinical Endocrinology and Metabolism (JCEM). (ANI)
- PFCs weaken immune response to vaccine shots in childhood - Jan 25, 2012
- Widely used chemicals linked to ADHD in kids - Jul 21, 2010
- Chemicals used in industrial applications may affect cholesterol levels - Nov 08, 2009
- Chemical found in plastics 'can increase testosterone levels in men' - Aug 26, 2010
- Exposure to bodycare products linked to childhood obesity - Jan 21, 2012
- Chemicals in mother's blood linked to child's obesity - Oct 10, 2010
- Prenatal exposure to BPA may raise breast cancer risk - May 29, 2010
- Prenatal exposure to plastic chemical linked to breast cancer - May 22, 2010
- Being to clean could make you prone to more allergies - Nov 29, 2010
- High vitamin D levels may not reduce frailty risk in older women - Dec 09, 2010
- Hot flushes tied to lower risk of breast cancer - Jan 26, 2011
- Antidepressants 'can treat severe depression in menopausal women' - Aug 17, 2010
- Prenatal exposure to flame-retardant compounds adversely affects kids' neurodevelopment - Jan 20, 2010
- Onset of menopause slows down learning in women - May 26, 2009
- Promising novel diagnostic biomarker for ectopic pregnancies identified - Nov 05, 2010
Tags: age women, causality, concentration levels, early menopause, food containers, household products, human women, inverse association, life animals, onset of menopause, perimenopausal, pfc, pfcs, sarah knox, school of medicine, serum concentration, serum concentrations, water air, west virginia university, west virginia university school of medicine