Spatial distribution of descending propriospinal tract neurons in the cat spinal cord

Abstract

Quantitative estimates of the density of distribution of interneurons forming descending intersegmental connections in the cat spinal cord were obtained. Neurons were labeled by retrograde axonal transport of horseradish peroxidase injected unilaterally at different segmental levels. The mean number of labeled units per section 50 µ thick, in a given zone, was used as the measure of density. The density of distribution of the propriospinal neurons forming the longest tracts between the cervical and lumbosacral regions of the cord was found to be about half the density of distribution of neurons with short (not more than two segments) axons, and to be several times less than the corresponding value for neurons with axons of intermediate length. No marked local peaks of density of distribution of long-axon neurons were found at the level of the brachial enlargement. The number of neurons with crossed axons in most segments was close to half of the total number of propriospinal units. Zones of transverse section of the spinal cord with maximal concentrations of neurons forming direct and crossed propriospinal tracts of different lengths were determined at different levels. Correlation between the quantitative composition of propriospinal neuron populations with characteristics of influences transmitted by these populations is examined.