Performance fatigability differs between men and women for a range of fatiguing tasks. Women are usually less fatigable than men, and this is most widely described for isometric fatiguing contractions and some dynamic tasks. The sex difference in fatigability is specific to the task demands so that one mechanism is not universal, including any sex differences in skeletal muscle physiology, muscle perfusion, and voluntary activation. However, there are substantial knowledge gaps about the task dependency of the sex differences in fatigability, the involved mechanisms, and the relevance to clinical populations and with advanced age. The knowledge gaps are in part due to the significant deficits in the number of women included in performance f...
The anatomical and physiological differences between males and females are thought to determine diff...
Background Optimal function of the abdominal muscles is necessary for several life functions includi...
Background: Less lean mass and strength may result in greater relative task demands on females compa...
Sex-related differences in physiology and anatomy are responsible for profound differences in neurom...
Women are usually less fatigable than men during single-limb isometric contractions, primarily becau...
Women can be less fatigable than men due to sex-related differences within the neuromuscular system ...
Fatigability during exercise is determined by a myriad of factors including characteristics of the t...
Females are less fatigable than males during isometric exercise at intensities relative to maximal v...
Purpose The purpose of this study was to determine whether supraspinal mechanisms contribute to the ...
Background and Purpose: Despite the implications of optimizing strength training post-stroke, little...
© 2021-IOS Press. All rights reserved. BACKGROUND: Few studies have examined sex differences in perf...
Females are less fatigable than males during isometric contractions across various muscles and inten...
Due to morphological differences, females demonstrate greater fatigue resistance of locomotor muscle...
Females are less fatigable than males during isometric exercise at intensities relative to maximal v...
Purpose The purpose of this study was to determine whether supraspinal mechanisms contribute to the ...
The anatomical and physiological differences between males and females are thought to determine diff...
Background Optimal function of the abdominal muscles is necessary for several life functions includi...
Background: Less lean mass and strength may result in greater relative task demands on females compa...
Sex-related differences in physiology and anatomy are responsible for profound differences in neurom...
Women are usually less fatigable than men during single-limb isometric contractions, primarily becau...
Women can be less fatigable than men due to sex-related differences within the neuromuscular system ...
Fatigability during exercise is determined by a myriad of factors including characteristics of the t...
Females are less fatigable than males during isometric exercise at intensities relative to maximal v...
Purpose The purpose of this study was to determine whether supraspinal mechanisms contribute to the ...
Background and Purpose: Despite the implications of optimizing strength training post-stroke, little...
© 2021-IOS Press. All rights reserved. BACKGROUND: Few studies have examined sex differences in perf...
Females are less fatigable than males during isometric contractions across various muscles and inten...
Due to morphological differences, females demonstrate greater fatigue resistance of locomotor muscle...
Females are less fatigable than males during isometric exercise at intensities relative to maximal v...
Purpose The purpose of this study was to determine whether supraspinal mechanisms contribute to the ...
The anatomical and physiological differences between males and females are thought to determine diff...
Background Optimal function of the abdominal muscles is necessary for several life functions includi...
Background: Less lean mass and strength may result in greater relative task demands on females compa...