Chronological age doesn't solely determine health; biological age, influenced by genetics and various factors, reveals insights into individual aging processes. Recent research emphasizes the importance of assessing biological age alongside chronological age to better understand overall health and longevity. Eric Topol advocates that measuring biological age can predict health risks and help devise tailored preventive and treatment strategies. Advances in biological aging research began with Steven Horvath's epigenetic clock, which uses DNA methylation patterns to estimate biological age, aiding in personalized medicine and longevity studies.
Calculating biological age is core to the advancements in the science of aging, providing insight into the pace of an individual's aging process and potential health risks.
The research into biological aging has evolved significantly, beginning over a decade ago with geneticist Steven Horvath's epigenetic clock, which predicts biological age using genetic markers.
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