Sustaining neuromuscular activation after total knee arthroplasty preserves skeletal muscle fiber size, contractility, and innervation in older adults

Sustaining neuromuscular activation after total knee arthroplasty preserves skeletal muscle fiber size, contractility, and innervation in older adults

Knee osteoarthritis (OA) is the leading cause of physical disability in older adults. Total knee arthroplasty (TKA) is a common treatment for advanced stage knee OA that alleviates knee pain, but it is associated with precipitous reductions in physical function early after surgery that can take mont...

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Main Authors: Michael J. Toth, Patrick D. Savage, Deena B. Snoke, Emma R. Bellefleur, Michael DeSarno, Timothy W. Tourville, Michael Blankstein, Alexander R. Keeble, Sara Gonzalez-Velez, Christopher S. Fry, Jennifer Stevens-Lapsley, Nathaniel J. Nelms
Format: Article
Language:English
Published: Elsevier 2025-10-01
Series:Experimental Gerontology
Subjects:
Disablement
Myosin
Denervation
Rehabilitation
Online Access:http://www.sciencedirect.com/science/article/pii/S0531556525001603
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Summary:Knee osteoarthritis (OA) is the leading cause of physical disability in older adults. Total knee arthroplasty (TKA) is a common treatment for advanced stage knee OA that alleviates knee pain, but it is associated with precipitous reductions in physical function early after surgery that can take months or years to recover. Sustaining neuromuscular activation after surgery with neuromuscular electrical stimulation (NMES) can improve recovery of physical function, but the mechanisms underlying its benefits are unclear. To examine the unique effects of NMES on skeletal muscle, we randomized older adult patients (70 % female) to early NMES (n = 11) or no intervention (n = 12) for 5 weeks after surgery. We measured skeletal muscle (vastus lateralis) fiber size, contractility, mitochondrial content, and mRNA abundance pre-surgery and 5 weeks post-surgery. NMES diminished TKA-induced muscle fiber atrophy in fast-twitch, myosin heavy chain (MHC) IIA fibers and improved or preserved single muscle fiber contractility in MHC I and MHC IIA fibers, respectively. In MHC IIA fibers, the beneficial effects of NMES to sustain fiber force production were explained at the molecular level by preservation of strongly bound, myosin-actin crossbridges. Additionally, TKA-induced increases in markers of denervation (CHRNA1 and MYOG) in controls were prevented by NMES. Our results identify beneficial effects of sustaining neuromuscular activation early, post-TKA with NMES on skeletal muscle fiber size and function and potential molecular mechanisms underlying these effects.
ISSN:1873-6815

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