Abstract
Tonic vibration reflex was produced in the human soleus muscle by vibrating the tendon at the rate of 30–180 Hz and motor unit potentials were recorded. A correlation was found between the points at which these potentials occurred and vibratory stimuli over lower ranges of vibration rates (of up to 70–80 Hz) in all motor units, indicative of discrete bursts in the synaptic inflow to the motoneuron matching the vibratory stimuli. The correlation disappeared with an increase in vibration rate and manifested at high as well as low vibration rates in voluntarily contracted muscle. Since vibration is known to (presynaptically) depress monosynaptic reflexes induced by activating primary spindle endings, it is suggested and maintained that the correlation found at low vibration rate ranges could result from activating vibrational stimuli of secondary spindle endings which act on motoneurons via short pathways, thus evoking discrete motoneuronal EPSP.
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