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Epigenetic age predictors for non-invasive assessment of human skin
Angel Menendez Vazquez, Dimitris Katsanos, Miruna Vasile, Andrew Graham, V. Dyster, Shakiba Kaveh, Mahdi Moqri, Cristiana Banila
npj Aging · 2025 · ▲ 4 citations
Abstract
Skin is both the most visible and most environmentally exposed organ, with apparent aging phenotypes. DNA methylation clocks faithfully capture the progression of aging, but so far have been limited to training on abundant in vitro material or invasively collected samples to generate narrow methylomes using microarray platforms. Here, we demonstrate that skin biological age can be measured directly from a person's face with superior accuracy, using non-invasive tape-stripping. We developed two clocks, MitraSolo, based on single CpGs, and MitraCluster, on regions, trained on the largest enzymatic methyl-sequencing dataset of human epidermis (n = 462). Our models were validated on independent, longitudinal, and external datasets and were compared against established clocks. They predict age accurately, with an error of approximately 4 years, outperforming others on epidermal samples. They maintain high accuracy at low sequencing depths, enabling cost-effective scalability and show intra-individual prediction variation <2 years, highlighting their reproducibility. Their predictive capacity generalised across anatomical sites, conversion and sampling methodologies and on in vitro material. They also successfully captured the rejuvenating effects of Yamanaka factor treatment. MitraSolo and MitraCluster represent a new class of epigenetic clocks optimised for human skin with characteristics that support their use in clinical research, intervention monitoring, and skincare innovation.
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- DOI
- 10.1038/s41514-025-00314-0
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- 2026-06-19 MST
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APA
Vazquez, A.M., Katsanos, D., Vasile, M., Graham, A., Dyster, V., Kaveh, S., Moqri, M., & Banila, C. (2025). Epigenetic age predictors for non-invasive assessment of human skin. <em>npj Aging</em>. https://doi.org/10.1038/s41514-025-00314-0
Vancouver
Vazquez AM, Katsanos D, Vasile M, Graham A, Dyster V, Kaveh S, et al. Epigenetic age predictors for non-invasive assessment of human skin. npj Aging. 2025. doi:10.1038/s41514-025-00314-0.
BibTeX
@article{angel2025Epigen,
title = {Epigenetic age predictors for non-invasive assessment of human skin},
author = {Angel Menendez Vazquez and Dimitris Katsanos and Miruna Vasile and Andrew Graham and V. Dyster and Shakiba Kaveh and Mahdi Moqri and Cristiana Banila},
journal = {npj Aging},
year = {2025},
doi = {10.1038/s41514-025-00314-0},
}
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