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Peripheral-Central Interplay for Fatiguing Unresisted Repetitive Movements: A Study Using Muscle Ischaemia and m1 Neuromodulation
(Nature Research, 2021-01-22)
[Abstract]
Maximal-rate rhythmic repetitive movements cannot be sustained for very long, even if unresisted. Peripheral and central mechanisms of fatigue, such as the slowing of muscle relaxation and an increase in M1-GABAb ...
Effects of Fatigue Induced by Repetitive Movements and Isometric Tasks on Reaction Time
(Elsevier, 2020-09-25)
[Abstract]
Purpose:
The understanding of fatigue of the human motor system is important in the fields of ergonomics, sport, rehabilitation and neurology. In order to understand the interactions between fatigue and reaction ...