Epigenetic aging clocks have gained significant attention as a tool for predicting age-related health conditions in clinical and research settings. They have enabled geroscientists to …
N Gensous, MG Bacalini, C Pirazzini, E Marasco… - Biogerontology, 2017 - Springer
In this review, we summarize current knowledge regarding the epigenetics of age-related diseases, focusing on those studies that have described DNA methylation landscape in …
L Kong, C Ye, Y Wang, T Hou, J Zheng… - The Journals of …, 2023 - academic.oup.com
Abstract GrimAge acceleration (GrimAgeAccel) and PhenoAge acceleration (PhenoAgeAccel) are DNA methylation-based markers of accelerated biological aging …
LL Schmitz, W Zhao, SM Ratliff, J Goodwin, J Miao… - Epigenetics, 2022 - Taylor & Francis
Epigenetic clocks have been widely used to predict disease risk in multiple tissues or cells. Their success as a measure of biological ageing has prompted research on the connection …
Human lifespan variation is mainly determined by environmental factors, whereas the genetic contribution is 25–30% and expected to be polygenic. Two complementary fields go …
Background The trajectory of frailty in older adults is important to public health; therefore, markers that may help predict this and other important outcomes could be beneficial …
Background Recently, epigenetic age acceleration—or older epigenetic age in comparison to chronological age—has been robustly associated with mortality and various morbidities …
Background Epigenetic clocks based on DNA methylation yield high correlations with chronological age in cross-sectional data. Due to a paucity of longitudinal data, it is not …
Background Many DNA methylation-based indicators have been developed as summary measures of epigenetic aging. We examine the associations between 13 epigenetic clocks …