PFAS can absorb through the skin, potentially threatening our health, study finds

The chemicals are present in consumer products including skincare, cosmetics and waterproof clothing.

A photo of a white woman's hands; one hand is cupped and holding a blob of lotion while the other is poised to dip into the lotion
PFAS are chemicals found in many products and in the environment, and they've been tied to a number of concerning health effects.
(Image credit: AXL via Shutterstock)

Per- and polyfluoroalkyl substances (PFAS) or synthetic forever chemicals have been detected everywhere from the Arctic ice and its polar bears to penguin colonies in Tasmania, even in rain water and sea spray. These persistent chemicals have been found in the blood of people all over the world, as well as in human breast milk. Indeed, our team has even found them in dust from the International Space Station.

But not much is yet known about how PFAS gets into our bodies. Possible pathways include ingesting (food, water and other products that contain PFAS) or breathing in air contaminated with PFAS particles. Our recent research shows that it's possible for PFAS to penetrate human skin and reach our bloodstream.

Oddný Ragnarsdóttir
PhD Candidate, Environmental Chemistry, University of Birmingham

Oddný Ragnarsdóttir is an early stage researcher who obtained her BSc in Chemistry from the University of Iceland and MSc in Chemistry in Environmental Forensics from Örebro University, Sweden. During her master studies, she researched the interplay of gut microbial metabolites, metabolome and environmental exposure in anoretic women. The main focus of the project was the analysis of PFAS and bile acids in serum samples. Those results were then linked to clinical data and metabolomic results in order to aid in the understanding of the development and persistence of anorexia nervosa. Oddný is interested in metabolomics and the analysis of persistent organic pollutants in order to learn more about human exposure routes and their possible health effects.