1. Instability of motor unit firing rates during prolonged isometric contractions in human masseter.
- Author
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Nordstrom MA and Miles TS
- Subjects
- Adolescent, Adult, Electromyography, Feedback, Female, Humans, In Vitro Techniques, Isometric Contraction physiology, Male, Masseter Muscle innervation, Muscle Contraction physiology, Recruitment, Neurophysiological, Masseter Muscle physiology, Motor Neurons physiology
- Abstract
The firing patterns of up to 4 concurrently active masseter motor units were studied with intramuscular electrodes during a continuous isometric contraction of 15 min duration, in which the subject maintained the mean firing rate of one selected unit at 10 Hz. With this paradigm the net excitation (i.e. mean firing rate) of one unit in the muscle was controlled. This served as the reference for the functional state of other active units during the prolonged contraction. With the mean firing rate of one unit in the muscle fixed, 58% of other active units showed a slow, statistically-significant change in mean firing rate over the 15 min. The initial firing rate of the units did not influence the change in rate. The original firing rate hierarchy, which in short-term contractions reflects the recruitment order, was altered during the prolonged contraction. The explanation for these differential changes in motoneuron net excitation is not clear; they could be intrinsic to the motoneurons or perhaps mediated by reflex pathways. The selective facilitation or suppression of some motor units with continuous activation means that the original size-structured combination of motor units can be modified during a prolonged contraction.
- Published
- 1991
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