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The effects of training status and recovery time on the reconstitution of impulse above electrically stimulated critical torque
(2022-05-13)
Fatigue represents a reduction in the desired or expected muscular force (Porter, 1981) often as a result of intense or prolonged exercise. Critical power (CP) provides a framework to understand fatigue and exercise ...
THE EFFECTS OF MUSCLE LENGTH ON FORCE STEADINESS AND EMG RESPONSES FOLLOWING A FATIGUING PROTOCOL
(2017-05-12)
The purpose of this study was to examine the effect of muscle length on force steadiness and EMG responses following a fatiguing intervention. Twenty-three subjects, fifteen men and eight women, were required to perform ...
Estimation of Critical Torque Using Neuromuscular Electrical Stimulation of the Quadriceps in Humans
(2017-05-12)
Critical torque (CT) is an integrative measure/concept that represents the “critical” or upper boundary of steady-state work that can be performed without leading to exhaustive fatigue. While this concept has been observed ...
Sex differences in muscle force signal complexity and variability during maximal and submaximal exercise
(2023-05-12)
Sex differences have been a topic of interest in exercise physiology as of late, especially the possibility of a sex-dependent fatigue mechanism. Signal complexity has the potential to provide a better picture of fatigue ...
TIME COURSE OF CHANGE IN CRITICAL TORQUE AND IMPULSE ABOVE CRITICAL TORQUE FOLLOWING EXERCISE-INDUCED MUSCLE DAMAGE
(2018-05-11)
Exercise-induced muscle damage (EIMD) is a result of high-force eccentric contractions and can lead to significant alterations in the structure and function of skeletal muscles. Critical torque (CT) and the impulse above ...