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Huishoudchemicaliën en artrose*
Vrouwen blijken volgens een nieuwe studie een duidelijk grotere kans te hebben op artrose als ze regelmatig blootgesteld worden aan perfluorkoolstoffen. Perfluorkoolstoffen (PFC's) zoals PFOS en PFOA worden o.m. gebruikt bij de fabricatie van teflon, in kleding, vloerbedekking, brand- en waterwerende stoffen, voedselverpakkingen en pesticiden en wordt ook al in drinkwater en voedsel aangetroffen. Ze worden in het milieu niet afgebroken en bij veel mensen wereldwijd worden al sporen PFC in het bloed gevonden. Uit de studie onder ruim 4.000 mannen en vrouwen bleek alleen bij de vrouwen een relatie tussen blootstelling aan PFC's en de kans op artrose. Vrouwen met de hoogste blootstelling hadden twee keer meer kans op artrose dan zij met de laagste blootstelling. Vrouwen jonger dan 50 bleken ook nog eens meer kans te maken.
Chemicals in cookware, carpets may raise arthritis risk in women
Study looked at PFCs, found in products from nonstick cookware to carpeting.
In what researchers are calling a first, a new analysis suggests that the greater a woman's exposure to a type of common chemical compound called PFCs, the greater her risk for developing osteoarthritis.
Researchers did not find a similar risk among men regarding these chemicals, which are now found in everything from nonstick cookware to take-out containers and carpeting.
Osteoarthritis, the most common type of arthritis, causes pain and stiffness and involves degeneration of the cartilage in the joints.
And the study authors stressed that while their investigation identified a robust link between osteoarthritis and exposure to two specific PFC chemicals—known as PFOA and PFOS—for now the finding can only be described as an association, rather than a cause-and-effect relationship.
"But we did find a clear and strong association between exposure to [these] compounds and osteoarthritis, which is a very painful chronic disease," said study lead author Sarah Uhl, who conducted the study while working as a researcher at the Yale School of Forestry and Environmental Studies in New Haven, Conn.
"This adds to the body of information that we have suggesting that these highly persistent synthetic chemicals are of concern when it comes to the public health," she said.
The new study appears in Environmental Health Perspectives.
Uhl noted that exposure to PFCs is nearly universal, given their inclusion in a vast array of products to enable (among other things) the grease-proofing of food packaging, waterproofing of rain gear, and textile stain protection.
Previous research has linked PFC exposure to a higher risk for the premature onset of menopause in women, higher levels of "bad" LDL cholesterol in men and women, and reduced effectiveness of routine vaccinations among children.
To explore a potential PFC-osteoarthritis connection, the authors looked at PFOA and PFOS exposure data collected between 2003 and 2008 by the U.S. National Health and Nutrition Examination Survey.
The analysis covered more than 4,000 men and women between the ages of 20 and 84 for whom osteoarthritis status information was available.
The team found "significant associations" between osteoarthritis incidence and exposure to PFOA or PFOS among women but not men.
Women exposed to the highest levels of either chemical seemed to face up to nearly double the risk for developing osteoarthritis, compared to women exposed to the lowest levels.
The osteoarthritis-PFC connection also appeared to be stronger among younger women (between 20 and 49) than among older women (between 50 and 84). But the team said more follow-up research is needed to confirm the observation.
While the biological reason behind the potential connection remains unclear, the team suggested that the chemicals may have a particularly profound impact on hormonal balances for women.
"Our hormone systems are incredibly delicate and can be thrown off by tiny doses of hormone-disrupting chemicals," Uhl said. "And processes like inflammation and cartilage repair are associated with our hormones, and are also associated with osteoarthritis."
Whatever the culprit, Uhl cautioned that the problem is likely to persist for years to come despite a safety-driven downward trend in global PFOA/PFOS use.
"Once they get into the environment they just don't go away," she noted. "In people, they last years. So even if we were to reduce the use of these chemicals right away, they're still going to be around and in our bodies for a long time," she explained.
"Not being exposed is not an option, which is frustrating," Uhl added. "But as consumers, I would say that one of the best things to do is to lead a healthy lifestyle, and get exercise and eat well. Because we're finding that those steps can reduce susceptibility to factors that are outside our control."
Commenting on the study, Dr. Joseph Guettler, an orthopedic surgeon and sports medicine specialist at Beaumont Hospital in Royal Oak, Mich., suggested that PFC exposure should be put in context as one of a wide number of variables that can potentially drive osteoarthritis risk.
"There's genetics, weight and obesity, and previous injuries," he noted. "There are some people who are biomechanically built in a certain way that predisposes them. And then others with certain [jobs] who put a lot of wear and tear on their body," Guettler pointed out.
"And now this study seems to add an environmental factor, PFCs, to the list of traditional risk factors," he continued.
"The fact that they didn't find this association among men surprises me," Guettler added. "They hypothesize that this may be due to hormonal differences, but I would expect that the main mechanism for PFCs influencing osteoarthritis would be through their effect on the inflammatory process. Because PFCs have been linked to inflammation, and we are well aware that inflammation has a significant negative impact on cartilage. So there definitely needs to be more research." (Maart 2013)