ASGARI A. SENSORIMOTOR CONTROL OVER FUSIMOTOR NEURONS OF THE TENUISSIMUS MUSCLE IN THE A NESTHETIZED CAT: A QUALITATIVE PRIMARY AFFERENT RECORDING. Med J Islam Repub Iran 1999; 13 (3) :195-206
URL:
http://mjiri.iums.ac.ir/article-1-937-en.html
From the Department of Physiology and Biophysics. Baghiyatollah (a.s.) University of Medical Sciences. Tehran. I. R. Iran
Abstract: (4393 Views)
Cortical control of the sensory output of muscle spindles was studied in
thirteen anesthetized cats in the present experiment. Gamma motoneuron activity
was monitored during electrical stimulation of the sensorimotor cortex while
recording from single primary afferents from the tenuissimus muscle. Findings are
as follows:
1. The state of anesthesia is crucial in obtaining reproducible results and
variation in the state of anesthesia can alter the fusimotor effect from static to
dynamic or even from excitation to inhibition, a finding consistent with those of
Vedel and Mouillac-Baudevin.30The anesthetic agent used was also important in
determining the magnitude and types of responses to corticaI stimulation. the
initial burst of the primary afferent in response to passive stretch was by far greater
with chloralose than with barbiturate anesthesia in the tenuissimus muscle,
suggesting that there may be a tonic low-level dynamic gamma excitation in
chloralose anesthesia.
2. The state of the sensorimotor cortex is another determinant factor. Prevention
of CO2 escape from the surface of the cortex in the present experiments, by
covering the cortex with 1cm of mineral oil, is thought to be the sole factor which
made these results different from those obtained by Gladden and McWilliam.ll•12
3. Different types of static gamma motoneurons could be recruited from the
sensorimotor cortex independently.
4. The topographical mapping of the sensorimotor cortex in relation to the
type of recruited gamma motoneurons, static or dynamic, was as follows: a)
A"dynamic area" was identified from which dynamic effects were clearly elicited
during stimulation. b) Static effects were elicited following stimulation of a much
wider area across the sensorimotor cortex, the postcruciate dimple being almost at
the center.
5. The sensorimotor cortex was not only capable of controlling static gamma
motoneurons independently from dynamic ones, but also capable of simultaneously
inhibiting static gamma motoneurons and exciting others, lending support to the
idea put forward by others.6