期刊
JOURNAL OF THE ROYAL SOCIETY INTERFACE
卷 18, 期 174, 页码 -出版社
ROYAL SOC
DOI: 10.1098/rsif.2020.0765
关键词
musculoskeletal modelling; motor unit recruitment; human; muscle
资金
- National Institutes of Health [2R01AR055648]
The study reveals that the nervous system can recruit motor units within muscles and coordinate different muscles by prioritizing minimizing the metabolic cost of muscle contraction during body movement. This strategy allows for adjustments in muscle activity and force distribution based on various mechanical demands, ultimately controlling muscle function effectively.
The nervous system is faced with numerous strategies for recruiting a large number of motor units within and among muscle synergists to produce and control body movement. This is challenging, considering multiple combinations of motor unit recruitment may result in the same movement. Yet vertebrates are capable of performing a wide range of movement tasks with different mechanical demands. In this study, we used an experimental human cycling paradigm and musculoskeletal simulations to test the theory that a strategy of prioritizing the minimization of the metabolic cost of muscle contraction, which improves mechanical efficiency, governs the recruitment of motor units within a muscle and the coordination among synergist muscles within the limb. Our results support our hypothesis, for which measured muscle activity and model-predicted muscle forces in soleus-the slower but stronger ankle plantarflexor-is favoured over the weaker but faster medial gastrocnemius (MG) to produce plantarflexor force to meet increased load demands. However, for faster-contracting speeds induced by faster-pedalling cadence, the faster MG is favoured. Similar recruitment patterns were observed for the slow and fast fibres within each muscle. By contrast, a commonly used modelling strategy that minimizes muscle excitations failed to predict force sharing and known physiological recruitment strategies, such as orderly motor unit recruitment. Our findings illustrate that this common strategy for recruiting motor units within muscles and coordination between muscles can explain the control of the plantarflexor muscles across a range of mechanical demands.
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