Shortening-induced residual force depression in humans
- PMID: 30653421
- DOI: 10.1152/japplphysiol.00931.2018
Shortening-induced residual force depression in humans
Abstract
When an isometric muscle contraction is immediately preceded by an active shortening contraction, a reduction in steady-state isometric force is observed relative to an isometric reference contraction at the same muscle length and level of activation. This shortening-induced reduction in isometric force, termed "residual force depression" (rFD), has been under investigation for over a half century. Various experimental models have revealed the positive relationship between rFD and the force and displacement performed during shortening, with rFD values ranging from 5 to 39% across various muscle groups, which appears to be due to a stress-induced inhibition of cross-bridge attachments. The current review will discuss the findings of rFD in humans during maximal and submaximal contractions.
Keywords: concentric; dependence of force; electromyography; history; human; residual force depression.
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