What is the central question of the study? Are the changes in force potentials (at the muscle level) related with metabolic changes at speeds above and below the walk‐to‐run transition?… Click to show full abstract
What is the central question of the study? Are the changes in force potentials (at the muscle level) related with metabolic changes at speeds above and below the walk‐to‐run transition? What is the main finding and its importance? The force–length and force–velocity potentials of gastrocnemius medialis during human walking decrease as a function of speed; this decrease is associated with an increase in cumulative EMG activity and in the energy cost of locomotion. Switching from fast walking to running is associated to an increase in the force potentials, supporting the idea that the ‘metabolic trigger’ that determines the transition from walking to running is ultimately driven by a reduction of the muscle's contractile capacity.
Journal Title: Experimental Physiology
Year Published: 2022
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