Beyond chronological age: biological aging and its relevance for motor and cognitive function in multiple sclerosis

Patrick G Monaghan; Kristin A Johnson; Riley Bove; Brett W Fling; Nora E Fritz

doi:10.1080/17582024.2026.2676826

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Beyond chronological age: biological aging and its relevance for motor and cognitive function in multiple sclerosis

Journal article

Peer reviewed

Beyond chronological age: biological aging and its relevance for motor and cognitive function in multiple sclerosis

Patrick G Monaghan, Kristin A Johnson, Riley Bove, Brett W Fling and Nora E Fritz

Neurodegenerative disease management

05/19/2026

DOI: 10.1080/17582024.2026.2676826

PMID: 42153472

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Abstract

The aging of the global population has profound implications for multiple sclerosis (MS), a disease increasingly affecting older adults. Motor and cognitive impairments are common in both aging and MS, strongly predicting fall risk, independence, and quality of life. Yet chronological age, the most common clinical proxy, does not capture how disease-specific pathology and biological processes shape these outcomes. This review evaluates biological aging as a framework for understanding how motor and cognitive trajectories in MS diverge from typical aging. Evidence from telomere length, epigenetic clocks, cellular senescence, reproductive aging, and neuroimaging-derived brain age was synthesized. A targeted literature search of PubMed and related databases was conducted to identify relevant studies on biological aging in MS, with emphasis on motor and cognitive outcomes. Outcomes indicate accelerated biological aging in MS, with brain-predicted age showing the strongest functional associations, linking older-appearing brains to slower gait, greater disability, and reduced processing speed. Integrating biological-age frameworks could enable earlier detection of decline, guide targeted interventions, and improve quality of life in older adults with MS.

Multiple Sclerosis

biological aging

brain age

motor function

cognitive decline

Details

Title: Subtitle: Beyond chronological age: biological aging and its relevance for motor and cognitive function in multiple sclerosis
Creators: Patrick G Monaghan - Wayne State University
Kristin A Johnson - Colorado State University
Riley Bove - University of California, San Francisco
Brett W Fling - Colorado State University
Nora E Fritz - Wayne State University
Resource Type: Journal article
Publication Details: Neurodegenerative disease management
DOI: 10.1080/17582024.2026.2676826
PMID: 42153472
NLM abbreviation: Neurodegener Dis Manag
ISSN: 1758-2024
eISSN: 1758-2032
Publisher: Taylor & Francis
Grant note: National Multiple Sclerosis Society: MB-2107-38295 University of Michigan Alzheimer's Disease Center
This manuscript was funded by the National Multiple Sclerosis Society [MB-2107-38295], the NIH/NIA Michigan Alzheimer's Disease Research Center [P30AG072931], and the University of Michigan Alzheimer's Disease Center (Berger Endowment). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Language: English
Electronic publication date: 05/19/2026
Academic Unit: Physical Therapy and Rehabilitation Science; Injury Prevention Research Center
Record Identifier: 9985164578402771

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