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Review
. 2024 May 3;25(9):4984.
doi: 10.3390/ijms25094984.

Disuse-Induced Muscle Fatigue: Facts and Assumptions

Xenia V Sergeeva  1 Irina D Lvova  1 Kristina A Sharlo  1
Affiliations
Review

Disuse-Induced Muscle Fatigue: Facts and Assumptions

Xenia V Sergeeva et al. Int J Mol Sci. .

Abstract

Skeletal muscle unloading occurs during a wide range of conditions, from space flight to bed rest. The unloaded muscle undergoes negative functional changes, which include increased fatigue. The mechanisms of unloading-induced fatigue are far from complete understanding and cannot be explained by muscle atrophy only. In this review, we summarize the data concerning unloading-induced fatigue in different muscles and different unloading models and provide several potential mechanisms of unloading-induced fatigue based on recent experimental data. The unloading-induced changes leading to increased fatigue include both neurobiological and intramuscular processes. The development of intramuscular fatigue seems to be mainly contributed by the transformation of soleus muscle fibers from a fatigue-resistant, "oxidative" "slow" phenotype to a "fast" "glycolytic" one. This process includes slow-to-fast fiber-type shift and mitochondrial density decline, as well as the disruption of activating signaling interconnections between slow-type myosin expression and mitochondrial biogenesis. A vast pool of relevant literature suggests that these events are triggered by the inactivation of muscle fibers in the early stages of muscle unloading, leading to the accumulation of high-energy phosphates and calcium ions in the myoplasm, as well as NO decrease. Disturbance of these secondary messengers leads to structural changes in muscles that, in turn, cause increased fatigue.

Keywords: disuse; fatigue; unloading.

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Conflict of interest statement

The authors declare no conflicts of interest.

Figures

Figure 1
Figure 1
Relation of the maximum possible work time, energy supply mechanisms, and factors limiting muscle work to the intensity of muscle work. See text for explanations. % 1RM—percentage of power from one-repetition maximum, CrP—creatine phosphate.
See this image and copyright information in PMC

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