Litcius/Paper detail

Distribution of motor unit properties across human muscles

Jacques Duchateau, Roger M. Enoka

2021Journal of Applied Physiology80 citationsDOI

Abstract

The purpose of our review was to compare the distribution of motor unit properties across human muscles of different sizes and recruitment ranges. Although motor units can be distinguished based on several different attributes, we focused on four key parameters that have a significant influence on the force produced by muscle during voluntary contractions: the number of motor units, average innervation number, the distributions of contractile characteristics, and discharge rates within motor unit pools. Despite relatively few publications on this topic, current data indicate that the most influential factor in the distribution of these motor unit properties between muscles is innervation number. Nonetheless, despite a fivefold difference in innervation number between a hand muscle (first dorsal interosseus) and a lower leg muscle (tibialis anterior), the general organization of their motor unit pools, and the range of discharge rates appear to be relatively similar. These observations provide foundational knowledge for studies on the control of movement and the changes that occur with aging and neurological disorders.

Topics & Concepts

Motor unitMotor unit recruitmentDorsumPhysical medicine and rehabilitationDistribution (mathematics)Motor controlTibialis anterior muscleAnatomyNeuroscienceElectromyographyMedicineBiologyMathematicsSkeletal muscleMathematical analysisMuscle activation and electromyography studiesMotor Control and AdaptationAdvanced Sensor and Energy Harvesting Materials