Strength, skeletal muscle composition, and enzyme activity in multiple sclerosis

Abstract

Kent-Braun, J. A., A. V. Ng, M. Castro, M. W. Weiner, D. Gelinas, G. A. Dudley, and R. G. Miller. Strength, skeletal muscle composition and enzyme activity in multiple sclerosis. J. Appl. Physiol. 83(6): 1998–2004, 1997.—This study examined functional, biochemical, and morphological characteristics of skeletal muscle in nine multiple sclerosis (MS) patients and eight healthy controls in an effort to ascertain whether intramuscular adaptations could account for excessive fatigue in this disease. Analyses of biopsies of the tibialis anterior muscle showed that there were fewer type I fibers (66 ± 6 vs. 76 ± 6%), and that fibers of all types were smaller (average ↓26%) and had lower succinic dehydrogenase (SDH; average ↓40%) and SDH/α-glycerol-phosphate dehydrogenase (GPDH) but not GPDH activities in MS vs. control subjects, suggesting that muscle in this disease is smaller and relies more on anaerobic than aerobic-oxidative energy supply than does muscle of healthy individuals. Maximal voluntary isometric force for dorsiflexion was associated with both average fiber cross-sectional area ( r = 0.71, P = 0.005) and muscle fat-free cross-sectional area by magnetic resonance imaging ( r = 0.80, P < 0.001). Physical activity, assessed by accelerometer, was associated with average fiber SDH/GPDH ( r = 0.78, P = 0.008). There was a tendency for symptomatic fatigue to be inversely associated with average fiber SDH activity ( r = −0.57, P = 0.068). The results of this study suggest that the inherent characteristics of skeletal muscle fibers per se and of skeletal muscle as a whole are altered in the direction of disuse in MS. They also suggest that changes in skeletal muscle in MS may significantly affect function.