An elderly resident holding a hand fan while sitting in a chair at a care home during a heatwave
Changes in DNA markers that have been tied to ageing have also been linked to chronic heat exposure.Credit: Jeff Pachoud/AFP/Getty
Exposure to extreme heat events is linked to molecular changes that could reflect accelerated ageing, according to a preliminary analysis of DNA markers in more than 3,000 people.
The US-based work, presented at the Gerontological Society of America’s Annual Scientific Meeting in Seattle, Washington, last month, joins a host of other efforts to understand the effects of rising temperatures on human health, as heatwaves strike countries around the world with increasing frequency.
Heat is known to strain the heart and kidneys and to slow cognition. But extreme heat could also have effects that are invisible — at least at first. “The physical toll might not immediately manifest as an observable health outcome, but rather could affect our body at the cellular and molecular level,” says co-author Eun Young Choi, a gerontologist at the University of Southern California in Los Angeles. “And that biological deterioration could later develop into disability.”
Speeding up the clock
To find a sensitive measure of heat on the body, Choi and her colleagues turned to the ‘epigenetic clock’, a collection of chemical modifications to DNA that tend to change as people age. Although there is some debate as to how well such measures serve as a stand-in for ageing, previous studies have linked changes in these markers to environmental and social stress, as well as pregnancy and some health conditions.
The researchers analysed 2016–17 data on such markers from about 3,800 people aged 56 or older. They then cross-referenced this data with temperature maps of the United States and looked for correlations between the status of molecular markers and the number of days over various time periods in which the heat index — a measure of perceived temperature that factors in both heat and humidity — exceeded either 26.7 °C or 32.2 °C at the participant’s location.
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