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Is Muscle Weakness the New Smoking? Grip Strength Tied to Accelerated Biological Age – Neuroscience News

Summary: Muscle weakness marked by grip strength was associated with accelerated biological aging, a new study reports.

Source: University of Michigan

Everyone ages at a different pace. That’s why two 50-year-olds, despite living the same number of years, may have different biological ages—meaning that a host of intrinsic and extrinsic factors have caused them to age at varying paces with different levels of risk for disease and early death.

Lifestyle choices, such as diet, and smoking, and illness all contribute to accelerating biological age beyond one’s chronological age. In other words, your body is aging faster than expected.

And for the first time, researchers have found that muscle weakness marked by grip strength, a proxy for overall strength capacity, is associated with accelerated biological age.

Specifically, the weaker your grip strength, the older your biological age, according to results published in the Journal of Cachexia, Sarcopenia and Muscle.

Researchers at Michigan Medicine modeled the relationship between biological age and grip strength of 1,274 middle aged and older adults using three “age acceleration clocks” based on DNA methylation, a process that provides a molecular biomarker and estimator of the pace of aging. The clocks were originally modeled from various studies examining diabetes, cardiovascular disease, cancer, physical disability, Alzheimer’s disease, inflammation and early mortality.

Results reveal that both older men and women showed an association between lower grip strength and biological age acceleration across the DNA methylation clocks.

“We’ve known that muscular strength is a predictor of longevity, and that weakness is a powerful indicator of disease and mortality, but for the first time, we have found strong evidence of a biological link between muscle weakness and actual acceleration in biological age,” said Mark Peterson, Ph.D., M.S., lead author of the study and associate professor of physical medicine and rehabilitation at University of Michigan.

“This suggests that if you maintain your muscle strength across the lifespan, you may be able to protect against many common age-related diseases. We know that smoking, for example, can be a powerful predictor of disease and mortality, but now we know that muscle weakness could be the new smoking.”

The real strength of this study was in the 8 to 10 years of observation, in which lower grip strength predicted faster biological aging measured up to a decade later, said Jessica Faul, Ph.D., M.P.H., a co-author of the study and research associate professor at the U-M Institute for Social Research.

Past studies have shown that low grip strength is an extremely strong predictor of adverse health events. One study even found that it is a better predictor of cardiovascular events, such as myocardial infarction, than systolic blood pressure—the clinical hallmark for detecting heart disorders. Peterson and his team have previously shown a robust association between weakness and chronic disease and mortality across populations.

This evidence coupled with their study’s recent findings, Peterson says, shows potential for clinicians to adopt the use of grip strength as a way to screen individuals for future risk of functional decline, chronic disease and even early mortality.

“Screening for grip strength would allow for the opportunity to design interventions to delay or prevent the onset or progression of these adverse ‘age-related’ health events,” he said.

This is a cartoon of a man surrounded by weights, DNA, and hour glassesLifestyle choices, such as diet, and smoking, and illness all contribute to accelerating biological age beyond one’s chronological age. Credit: Justine Ross, Michigan Medicine

“We have been pushing for clinicians to start using grip strength in their clinics and only in geriatrics has this sort of been incorporated. However, not many people are using this, even though we’ve seen hundreds of publications showing that grip strength is a really good measure of health.”

Investigators say future research is needed to understand the connection between grip strength and age acceleration, including how inflammatory conditions contribute to age-related weakness and mortality.

Previous studies have shown that chronic inflammation in aging—known as “inflammaging”—is a significant risk factor for mortality among older adults. This inflammation is also associated with lower grip strength and may be a significant predictor on the pathway between lower grip strength and both disability and chronic disease multimorbidity.

Additionally, Peterson says, studies must focus on how lifestyle and behavioral factors, such as physical activity and diet, can affect grip strength and age acceleration.

“Healthy dietary habits are very important, but I think regular exercise is the most critical thing that somebody can do to preserve health across the lifespan,” he said. “We can show it with a biomarker like DNA methylation age, and we can also test it with a clinical feature like grip strength.”

Additional authors include Stacey Collins, M.A., Helen C.S. Meier, Ph.D., M.P.H., Alexander Brahmsteadt, M.D., all of University of Michigan.

Abstract

Grip strength is inversely associated with DNA methylation age acceleration

Background

There is a large body of evidence linking muscular weakness, as determined by low grip strength, to a host of negative ageing-related health outcomes. Given these links, grip strength has been labelled a ‘biomarker of aging’; and yet, the pathways connecting grip strength to negative health consequences are unclear. The objective of this study was to determine whether grip strength was associated with measures of DNA methylation (DNAm) age acceleration.

Methods

Middle age and older adults from the 2006 to 2008 waves of the Health and Retirement Study with 8–10 years of follow-up were included. Cross-sectional and longitudinal regression modelling was performed to examine the association between normalized grip strength (NGS) and three measures of DNAm age acceleration, adjusting for cell composition, sociodemographic variables and smoking. Longitudinal modelling was also completed to examine the association between change in absolute grip strength and DNAm age acceleration. The three DNAm clocks used for estimating age acceleration include the established DunedinPoAm, PhenoAge and GrimAge clocks.

Results

There was a robust and independent cross-sectional association between NGS and DNAm age acceleration for men using the DunedinPoAm (β: −0.36; P < 0.001), PhenoAge (β: −8.27; P = 0.01) and GrimAge (β: −4.56; P = 0.01) clocks and for women using the DunedinPoAm (β: −0.36; P < 0.001) and GrimAge (β: −4.46; P = 0.01) clocks. There was also an independent longitudinal association between baseline NGS and DNAm age acceleration for men (β: −0.26; P < 0.001) and women (β: −0.36; P < 0.001) using the DunedinPoAm clock and for women only using the PhenoAge (β: −8.20; P < 0.001) and GrimAge (β: −5.91; P < 0.001) clocks. Longitudinal modelling revealed a robust association between change in grip strength from wave 1 to wave 3 was independently associated with PhenoAgeAA (β: −0.13; 95% CI: −0.23, −0.03) and GrimAgeAA (β: −0.07; 95% CI: −0.14, −0.01) in men only (both P < 0.05).

Conclusions

Our findings provide some initial evidence of age acceleration among men and women with lower NGS and loss of strength over time. Future research is needed to understand the extent to which DNAm age mediates the association between grip strength and chronic disease, disability and mortality.

Source neurosciencenews.com

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