The study titled “Effects of Radon and UV Exposure on Skin Cancer Mortality in Switzerland” is published in the scientific peer-reviewed journal Environmental Health Perspectives. It examines the impact of radon and UV exposure on mortality due to malignant skin cancer in Switzerland.
The study analyzed 1,900 deaths due to malignant melanoma which occurred throughout Switzerland between 2000 and 2008 in people aged 20 years and above. The residential radon exposure was modeled on the basis of 45,000 measurements and accounted for the housing’s characteristics and the geological conditions of the area.
Radon more dangerous for young people
“Our study shows that, when radon decays, radioactive alpha particles not only destroy lung tissue but can also affect the skin. This has rarely been researched in the past,” says Martin Röösli, professor for environmental epidemiology at Swiss TPH, who wrote the study together with Danielle Vienneau, senior scientific collaborator at the Institute.
For the 30-year-olds, the relative risk for skin cancer increases around 50% per 100 Bq/mᵌ in-crease in radon exposure, while for the 60-year-olds it is considerably lower (16%). “The younger the individual is, the greater the impact of radon on the risk of developing the disease,” he explains. “The strengths of the Swiss TPH study are that it was a longitudinal analysis of the total population of Switzerland and that the effects of radon were modeled for every single household.”
Radon and skin cancer in Switzerland
Radon originates from granitic and metamorphic rocks and the soil. The level of residential radon exposure depends on both the geological condition of the area and on how well a house is sealed against radon vapor intrusion from the soil.
Of note, Switzerland has the third highest incidence rate of malignant skin cancer worldwide, which places it far above the central European average. Incidence of malignant melanoma has more than doubled in the last 20 years. With appropriate house construction, residential radon exposure can be significantly reduced.