Pain interference mediates the association between epigenetic aging and grip strength in middle to older aged males and females with chronic pain

Peterson, Jeffrey J.; Crow, Joshua A.; Johnson, Alisa; Meng, Lingsong; Rani, Asha; Huo, Zhiguang; Foster, Thomas C.; Fillingim, Roger B.; Cruz-Almeida, Yenisel

doi:10.3389/fnagi.2023.1122364

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2024

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Cited by 6 publications

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Clinical and biobehavioral phenotypic assessments and data harmonization for the RE-JOIN research consortium: Recommendations for common data element selection

Cruz-Almeida,

Mehta,

Haelterman

et al. 2024

Neurobiology of Pain

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Clinical and biobehavioral phenotypic assessments and data harmonization for the RE-JOIN research consortium: Recommendations for common data element selection

Cruz-Almeida,

Mehta,

Haelterman

et al. 2024

Neurobiology of Pain

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Outcome-guided Bayesian clustering for disease subtype discovery using high-dimensional transcriptomic data

Meng,

Huo

2024

Journal of Applied Statistics

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High-Impact Pain Is Associated With Epigenetic Aging Among Middle-Aged and Older Adults: Findings From the Health and Retirement Study

Tamargo,

Strath,

Cruz-Almeida

2024

The Journals of Gerontology, Series A: Biological Sciences and Medical Sciences

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Background Chronic pain has been associated with accelerated biological aging, which may be related to epigenetic alterations. We evaluated the association of high-impact pain (i.e., pain that limits activities and function) with epigenetic aging, a measure of biological aging, in a nationally representative sample of middle-aged and older adults in the United States. Methods Cross-sectional analysis of adults 50 years of age and older from the 2016 Health and Retirement Study (HRS). Epigenetic aging was derived from 13 epigenetic clocks based on DNA methylation patterns that predict aging correlates of morbidity and mortality. Ordinary least squares regressions were performed to test for differences in the epigenetic clocks, adjusting for the complex survey design, as well as biological, social, and behavioral factors. Results The analysis consisted of 3,855 adults with mean age of 68.5 years, including 59.8% with no pain and 25.8% with high-impact pain. Consistent with its operational definition, high-impact pain was associated with greater functional and activity limitations. High-impact pain was associated with accelerated epigenetic aging compared to no pain, as measured via second (Zhang, PhenoAge, GrimAge) and third (DunedinPoAm) generation epigenetic clocks. Additionally, GrimAge was accelerated in high-impact pain as compared to low-impact pain. Conclusions High-impact pain is associated with accelerated epigenetic aging among middle-aged and older adults in the United States. These findings highlight aging-associated epigenetic alterations in high-impact chronic pain and suggest a potential for epigenetic therapeutic approaches for pain management and the preservation of physical function in older adults.

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Pain interference mediates the association between epigenetic aging and grip strength in middle to older aged males and females with chronic pain

Cited by 6 publications

References 56 publications

Clinical and biobehavioral phenotypic assessments and data harmonization for the RE-JOIN research consortium: Recommendations for common data element selection

Clinical and biobehavioral phenotypic assessments and data harmonization for the RE-JOIN research consortium: Recommendations for common data element selection

Outcome-guided Bayesian clustering for disease subtype discovery using high-dimensional transcriptomic data

High-Impact Pain Is Associated With Epigenetic Aging Among Middle-Aged and Older Adults: Findings From the Health and Retirement Study

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