Metabolomic Signatures of Physical Function and Functional Trajectories in Older Adults: Insights from the ENRGISE Clinical Trial
David H. Lynch, Liubov Arbeeva, Susan C. J. Sumner, Blake R. Rushing, John A. Batsis, Amanda E. Nelson, Roger A. Fielding

TL;DR
This study uses metabolomics to identify metabolic signatures linked to physical function and treatment response in older adults with chronic inflammation.
Contribution
The study introduces novel metabolic signatures that predict functional trajectories and reveal pharmacologic effects of omega-3 supplementation.
Findings
Baseline metabolomic profiles differed by physical function status, with low grip strength linked to vitamin A metabolism.
Slower gait speed was associated with higher levels of prostaglandin and eicosanoid metabolites.
Omega-3 supplementation induced distinct changes in lipid-related pathways despite no clinical outcomes.
Abstract
Background: Chronic inflammation contributes to functional decline in older adults, yet interventions targeting inflammatory pathways have shown inconsistent results. Metabolomics offers a promising approach to identify biological heterogeneity and uncover molecular signatures underlying differential functional trajectories. Objective: Our objective was to examine whether untargeted serum metabolomics can identify metabolic signatures associated with baseline physical function, functional trajectories, and treatment response in older adults with chronic inflammation participating in the ENRGISE trial. Methods: We performed untargeted metabolomic profiling on serum samples (n = 731) collected at baseline, 6, and 12 months from participants (mean age ≥ 70) enrolled in the ENRGISE pilot randomized trial. Participants were randomized to losartan, omega-3 supplementation, both, or placebo.…
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Taxonomy
TopicsMetabolomics and Mass Spectrometry Studies · Fatty Acid Research and Health · Exercise and Physiological Responses
