MADRID, Oct. 8, 2019 /PRNewswire/ -- Research presented today at the 28th EADV Congress in Madrid shows, for the first time, that exposure to common air pollutants is linked to hair loss in humans.
The research was conducted by exposing cells from the human scalp at the base of hair follicles to various concentrations of particulate matter (PM). The results showed that the presence of PM10 and diesel particulate decreased levels of β-catenin, the protein responsible for hair growth.
The study also revealed that the levels of three other proteins (cyclin D1, cyclin E and CDK2), which are responsible for hair growth and hair retention, were decreased by PM10-like dust and diesel particulate in a dose dependent manner, meaning that the greater the level of pollutant, the greater the decrease in proteins.
Particulate matter (PM) is the term used to describe a mixture of solid particles and droplets found in the air. PM is divided into two categories; PM10 which are particles with a diameter of 10 micrometres or smaller and PM2.5 which have a diameter of 2.5 micrometres or smaller. Both PM10 and PM2.5 are considered to be major pollutants and are linked to various serious health conditions, such as heart and lung disease, cancer and respiratory problems.
Sources of PM include the burning of fossil fuels, including petrol, diesel and other solid-fuels such as coal, oil and biomass as well as other industrial activities such as building, mining and the manufacturing of building materials like cement, ceramics and bricks.
Lead researcher, Hyuk Chul Kwon from the Future Science Research Centre in the Republic of Korea, comments; "While the link between air pollution and serious diseases such as cancer, COPD and CVD are well established there is little to no research on the effect of particular matter exposure on the human skin and hair in particular. Our research explains the mode of action of air pollutants on human follicle dermal papilla cells, showing how the most common air pollutants lead to hair loss."
SOURCE 28th EADV Congress