Motor unit excitability changes mediating vestibulocollic reflexes in the sternocleidomastoid muscle

Objective: To investigate the patterns of motor unit firing in single motor units from the sternocleidomastoid (SCM) muscles in response to stimuli previously shown to be capable of evoking vestibulocollic reflexes (loud clicks and electrical stimulation) and to relate these to the previously descri...

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Bibliographic Details
Published in:Clinical neurophysiology 2004-11, Vol.115 (11), p.2567-2573
Main Authors: Colebatch, J.G., Rothwell, J.C.
Format: Article
Language:English
Subjects:
Acoustic Stimulation
Adult
Biological and medical sciences
Electric Stimulation
Electrophysiology
Fundamental and applied biological sciences. Psychology
Humans
Male
Motor control and motor pathways. Reflexes. Control centers of vegetative functions. Vestibular system and equilibration
Motor Neurons - physiology
Motor unit firing
Neck Muscles - innervation
Reaction Time
Reflex - physiology
Striated muscle. Tendons
Vertebrates: nervous system and sense organs
Vertebrates: osteoarticular system, musculoskeletal system
Vestibular apparatus
Vestibular Nerve - physiology
Vestibulocollic reflex
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Summary:Objective: To investigate the patterns of motor unit firing in single motor units from the sternocleidomastoid (SCM) muscles in response to stimuli previously shown to be capable of evoking vestibulocollic reflexes (loud clicks and electrical stimulation) and to relate these to the previously described surface potentials (VEMPs, vestibular evoked myogenic potentials) evoked by the same stimuli. Methods: Eleven male subjects (30–43-years-old) were studied. Local anaesthetic was used to block the SCM and confirm that the surface potentials (p13n23) arose from it. At another time, fine wire or needle electrodes were used to record single motor unit activity and peristimulus time histograms were constructed. Results: Local anaesthetic block reduced or abolished the p13n23 response in 5 of 6 subjects. A total of 94 histograms of motor unit discharges were recorded. The excitability changes seen were always small. Loud click stimuli given ipsilaterally evoked short latency (mean 14.2 ms, uncorrected for triggering delays), and short duration (mean 3.6 ms) inhibition. Contralaterally, the effect was excitatory (latency 11.9 ms, uncorrected, mean duration 2.3 ms). For electrical stimulation, short latency inhibition occurred ipsilateral to the cathode (average latency 14.0 ms, uncorrected, mean duration 2.9 ms) and excitation occurred contralaterally. Conclusions: We confirmed that the SCM is the sole or dominant source of the VEMPs recorded from electrodes over it. Short latency, short duration motor unit firing changes are evoked in SCM by loud clicks and electrical stimulation, stimuli known to be capable of evoking vestibulocollic reflexes. VEMPs beginning with a positivity correspond to inhibition of the underlying motor unit firing and those starting with a negativity correspond to an underlying excitation, findings consistent with intracellular recordings of otolith effects. Qualitative explanations of how the surface potentials are generated by these excitability changes and relating to other properties of the surface responses are proposed. Significance: This study has shown consistent patterns of single motor unit firing which underlie VEMPs evoked by both clicks and short duration galvanic stimulation.
ISSN:1388-2457
1872-8952
DOI:10.1016/j.clinph.2004.06.012