The Distribution of Dorsal Root Fibres on Motor Cells in the Lumbosacral Spinal Cord of the Cat, and the Site of Excitatory and Inhibitory Terminals in Monosynaptic Pathways

The degeneration of cut, lumbosacral dorsal roots was traced by means of a silver method to the various sites of termination in the spinal cord of the cat. Particular attention was given to the pattern and distribution of dorsal root fibres terminating on motor cells. An attempt was made to correlat...

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Bibliographic Details
Published in:Proceedings of the Royal Society of London. Series B, Biological sciences Biological sciences, 1958-12, Vol.149 (937), p.534-556
Main Author: Sprague, J. M.
Format: Article
Language:English
Subjects:
Animals
Cats
Cell nucleus
Dendrites
Gray matter
Interneurons
Lumbosacral plexus
Monosynaptic reflex
Motor Neurons
Old Medline
Plexus
Reflex
Sacrum
Spinal Cord
Spinal Nerve Roots
Spinal Nerves - anatomy & histology
Synapses
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Summary:The degeneration of cut, lumbosacral dorsal roots was traced by means of a silver method to the various sites of termination in the spinal cord of the cat. Particular attention was given to the pattern and distribution of dorsal root fibres terminating on motor cells. An attempt was made to correlate the synaptic organization of these monosynaptic pathways with the presence and distribution of short latency, direct excitation and inhibition (measured on the ventral roots) in comparable segments of the cord. Short latency excitation was found in the lower sacral segments to be correlated with dorsal root fibres terminating on cell bodies and dendrites of the motoneurons. Direct inhibition, largely or entirely uncontaminated by excitation, was identified in lower lumbar and upper and lower sacral segments. In these sites the terminal degeneration of the responsible dorsal root was limited to the dendrites and did not reach the cell bodies of the motoneurons. This consistent correlation between the spatial distribution of direct inhibition and terminals on motor dendrites suggests that this inhibition is monosynaptically and dendritically mediated, at least in part. Certain other interpretations are considered and relevant evidence obtained from intracellular microelectrodes placed in lower sacral motoneurones which were excited by ipsilateral and inhibited by contralateral dorsal root stimulation is discussed. Here, uncontaminated, monosynaptic excitation could be correlated with synaptic terminals on both cell bodies and dendrites of motoneurones.
ISSN:0962-8452
0080-4649
0950-1193
2053-9193
1471-2954
2053-9193
DOI:10.1098/rspb.1958.0091