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Hrvatin and colleagues explore the antiaging mechanisms of torpor, and separate the roles of metabolic rate and body temperature. The study demonstrates that hypothermia, and not hypometabolism, drives deceleration of epigenetic aging, which positions body temperature as a pivotal target in aging research.

Cerri, M. (2025). Cold is hot for slowing aging. NATURE AGING, 5(3), 344-345 [10.1038/s43587-025-00817-1].

Cold is hot for slowing aging

Cerri, Matteo
2025

Abstract

Hrvatin and colleagues explore the antiaging mechanisms of torpor, and separate the roles of metabolic rate and body temperature. The study demonstrates that hypothermia, and not hypometabolism, drives deceleration of epigenetic aging, which positions body temperature as a pivotal target in aging research.
2025
NATURE AGING
Cerri, M. (2025). Cold is hot for slowing aging. NATURE AGING, 5(3), 344-345 [10.1038/s43587-025-00817-1].
Cerri, Matteo
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/1011759
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