Bond rupture mechanism enables to explain in block asymmetry of elaxation, force-velocity curve and the path of energy dissipation in muscle
Eugene V. Rosenfeld
TL;DR
This paper introduces a bond rupture mechanism that explains asymmetries in muscle relaxation, force-velocity relationships, and energy dissipation pathways, providing a new perspective on muscle mechanics.
Contribution
It proposes a novel bond rupture model to elucidate asymmetric behaviors in muscle dynamics not previously explained by existing theories.
Findings
Bond rupture mechanism accounts for relaxation asymmetry.
Explains force-velocity curve characteristics.
Describes energy dissipation pathways in muscle.
Abstract
Bond rupture mechanism enables to explain in block asymmetry of elaxation, force-velocity curve and the path of energy dissipation in muscle
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Taxonomy
TopicsForce Microscopy Techniques and Applications · Muscle activation and electromyography studies · Mechanical and Optical Resonators