Reorganization of the Raccoon Cuneate Nucleus After Peripheral Denervation

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Reorganization of the Raccoon Cuneate Nucleus After Peripheral Denervation

Douglas D. Rasmusson and Stacey A. Northgrave

Department of Physiology and Biophysics, Dalhousie University, Halifax, Nova Scotia B3H 4H7, Canada

Rasmusson, Douglas D. and Stacey A. Northgrave. Reorganization of the raccoon cuneate nucleus after peripheral denervation.J. Neurophysiol. 78: 2924-2936, 1997. The effects of peripheralnerve transection on the cuneate nucleus were studied in anesthetizedraccoons using extracellular, single-unit recordings. The somatotopicorganization of the cuneate nucleus first was examined in intact,control animals. The cuneate nucleus in the raccoon is organizedwith the digits represented in separate cell clusters. The dorsalcap region of the cuneate nucleus contains a representation ofthe claws and hairy skin of the digits. Within the representationof the glabrous skin, neurons with rapidly adapting propertiestended to be segregated from those with slowly adapting properties.The representations of the distal and proximal pads on a digitalso were segregated. Electrical stimulation of two adjacent digitsprovided a detailed description of the responses originating fromthe digit that contains the tactile receptive field (the on-focusdigit) and from the adjacent (off-focus) digit. Stimulation ofthe on-focus digit produced a short latency excitation in all99 neurons tested, with a mean of 10.5 ms. These responses hada low threshold (426 µA). Stimulation of an off-focus digit activated65% of these neurons. These responses had a significantly longerlatency (15.3 ms) than on-focus responses and the threshold wasmore than twice as large. Two to five months after amputationof digit 4, 97 cells were tested with stimulation of digits 3and 5. A total of 44 were in the intact regions of the cuneatenucleus. They had small receptive fields on intact digits andtheir responses to electrical stimulation did not differ fromthe control neurons. The remaining 53 neurons were judged to bedeafferented and in the fourth digit region on the basis of theirlocation with respect to intact neurons. All but two of thesecells had receptive fields that were much larger than normal,often including more than one digit and part of the palm. Whencompared with the off-focus control neurons, their responses toelectrical stimulation had lower thresholds and an increased responseprobability and magnitude. The latencies of these cells did notdecrease, however, and were the same as the off-focus controlvalues. The enhanced responses of the deafferented neurons toadjacent digit stimulation indicate that there is a strengtheningof synapses that were previously ineffective. The increased proportionof neurons that could be activated after amputation suggests thatthere is also a growth of new connections. This experiment demonstratesthat reorganization in the adult somatotopic system does occurat the level of the dorsal column nuclei. As a consequence, manyof the changes reported at the cortex and thalamus may be dueto the changes occurring at this first synapse in the somatosensorypathway.

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