Fatigue and Fatigability in Persons With Multiple Sclerosis Zijdewind, Inge; Prak, Roeland F.; Wolkorte, Ria Zijdewind, Inge; Prak, Roeland F.; Wolkorte, Ria Less Exercise and Sport Sciences Reviews. 44(4):123-128, October 2016. Abstract Abstract In Brief In Brief Favorites PDF Get Content & Permissions Abstract: Go to Full Text of this Article In Brief: The decline in force decline during a sustained contraction in persons with multiple sclerosis mainly is due to reduced voluntary drive. Go to Full Text of this Article Free
The Age-Associated Reduction in Propulsive Power Generation in Walking Franz, Jason R. Franz, Jason R. Less Exercise and Sport Sciences Reviews. 44(4):129-136, October 2016. Abstract Abstract In Brief In Brief Favorites PDF Get Content & Permissions Abstract: Go to Full Text of this Article In Brief: Declines in force or power generating capacity of propulsive leg muscles cannot fully explain the age-related reduction in propulsive power generation during walking. Go to Full Text of this Article Free
Sympathetic Vasoconstriction in Skeletal Muscle: Adaptations to Exercise Training Just, Timothy P.; Cooper, Ian R.; DeLorey, Darren S. Just, Timothy P.; Cooper, Ian R.; DeLorey, Darren S. Less Exercise and Sport Sciences Reviews. 44(4):137-143, October 2016. Abstract Abstract In Brief In Brief Favorites PDF Get Content & Permissions Abstract: Go to Full Text of this Article In Brief: Aerobic exercise training alters sympathetic vasoconstrictor responsiveness and nitric oxide–dependent inhibition of sympathetic vasoconstriction. Go to Full Text of this Article Free
Decreased Myofilament Calcium Sensitivity Plays a Significant Role in Muscle Fatigue Debold, Edward P. Debold, Edward P. Less Exercise and Sport Sciences Reviews. 44(4):144-149, October 2016. Abstract Abstract In Brief In Brief Favorites PDF Get Content & Permissions Abstract: Go to Full Text of this Article In Brief: Skeletal muscle fatigue resulting from intense contractile activity is caused, in large part, by the synergistic action of increased metabolic by-products and reduced myoplasmic calcium. Go to Full Text of this Article Free
