Exercise-Induced Muscle Damage on Muscle and Cerebral Oxygenation and Performance

 

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The study aimed to investigate the effects of exercise‐induced muscle damage on muscle and cerebral oxygenation. Twelve healthy men performed eccentric exercise on a leg press machine at an intensity corresponding to their concentric one-repetition maximum. Muscle damage indices, muscle and cerebral oxygenation, and vastus lateralis architecture were evaluated at baseline and 48 hours post-exercise. At 48 hours post-exercise, delayed onset muscle soreness significantly increased (1.0±0.3 to 4.2±2.8; p<0.01), while concentric one-repetition maximum, maximal isometric force, and rate of force development decreased (p<0.01). The quadriceps’ cross-sectional area and muscle thickness significantly increased (p<0.05). During a 5-second maximal isometric contraction, the tissue oxygen saturation index (TSI) of the vastus lateralis (63±3 to 61±4 %; p>0.05) and the prefrontal cortex (68±2 to 67±1 %; p>0.05) did not change significantly. Deoxyhemoglobin showed a marginally significant decrease (1.16±1.14 to 0.06±1.10 μM; p=0.049). No significant changes were observed in muscle and cerebral oxygenation parameters during the 30 s maximal isometric contraction. The eccentric exercise protocol induced muscle damage and altered muscle architecture. However, these changes were not sufficient to affect muscle or cerebral TSI during either short- or long-duration maximal isometric contraction. Eccentric exercise-induced muscle damage was not found to induce changes in cerebral oxygenation.

Publikationsverlauf

Eingereicht: 05. März 2025

Angenommen nach Revision: 26. Juni 2025

Accepted Manuscript online:
26. Juni 2025

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