Functional Characteristics of the Parallel SI- and SII-Projecting Neurons of the Thalamic Ventral Posterior Nucleus in the Marmoset

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Functional Characteristics of the Parallel SI- and SII-Projecting Neurons of the Thalamic Ventral Posterior Nucleus in the Marmoset

H. Q. Zhang, G. M. Murray, G. T. Coleman, A. B. Turman, S. P. Zhang, and M. J. Rowe

School of Physiology and Pharmacology, The University of New South Wales, Sydney, NSW 2052, Australia

Zhang, H. Q., G. M. Murray, G. T. Coleman, A. B. Turman, S. P. Zhang, and M. J. Rowe. Functional Characteristics of the Parallel SI- and SII-Projecting Neurons of the Thalamic Ventral Posterior Nucleus in the Marmoset. J. Neurophysiol. 85: 1805-1822, 2001. The functional organization of the primate somatosensory system at thalamocortical levels has been a matter of controversy,in particular, over the extent to which the primary and secondarysomatosensory cortical areas, SI and SII, are organized in parallelor serial neural networks for the processing of tactile information.This issue was investigated for the marmoset monkey by recordingfrom 55 single tactile-sensitive neurons in the lateral divisionof the ventral posterior nucleus of the thalamus (VPL) with aprojection to either SI or SII, identified with the use of theantidromic collision technique. Neurons activated from the handand distal forearm were classified according to their peripheralsource of input and characterized in terms of their functionalcapacities to determine whether the direct thalamic input canaccount for tactile processing in both SI and SII. Both the SI-and SII-projecting samples contained a slowly adapting (SA) classof neurons, sensitive to static skin displacement, and purelydynamically sensitive tactile neurons that could be subdividedinto two classes. One was most sensitive to high-frequency ( $>=$ 100Hz) cutaneous vibration whose input appeared to be derived fromPacinian sources, while the other was sensitive to lower frequencyvibration ( $<=$ 100 Hz) or trains of rectangular mechanical pulsestimuli, that appeared to receive its input from rapidly adapting(RA) afferent fibers presumed to be associated with intradermaltactile receptors. There appeared to be no systematic differencesin functional capacities between SI- and SII-projecting neuronsof each of these three classes, based on receptive field characteristics,on the form of stimulus-response relations, and on measures derivedfrom these relations. These measures included threshold and responsivenessvalues, bandwidths of vibrational sensitivity, and the capacityfor responding to cutaneous vibrotactile stimuli with phase-locked,temporally patterned impulse activity. The analysis indicatesthat low-threshold, high-acuity tactile information is conveyeddirectly to both SI and SII from overlapping regions within thethalamic VP nucleus. This direct confirmation of a parallel functionalprojection to both SI and SII in the marmoset is consistent withour separate studies at the cortical level that demonstrate first,that tactile responsiveness in SII largely survives the SI inactivationand second, that SI responsiveness is largely independent of SII.It therefore reinforces the evidence that SI and SII occupy ahierarchically equivalent network for tactileprocessing.

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