Journal of neurophysiology
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1. Little is known about the effect of central and peripheral nervous system injury on the processing of somatosensory information at the thalamic level in humans. The role of the human thalamic ventrocaudal nucleus (Vc) in nociception is not well understood because reports of nociceptive neuronal responses and stimulation-evoked pain are rare. ⋯ These results suggest that the effective thalamic output from Vc to the cortex is affected by somatosensory deafferentation in pain patients. In addition, in the PSP patients there are also changes in the thalamocortical processing of noxious information. The increased incidence of thalamic-evoked pain in PSP patients may be due to 1) loss of low-threshold mechanoreceptive thalamic neurons such that nociceptive neuronal output is now prominent, 2) reduced tonic inhibition of thalamic or cortical nociceptive neurons, and/or 3) unmasking or strengthening of nociceptive pathways.
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1. The responses of feline cutaneous nociceptors were examined in vivo by systematically manipulating the intensive and spatial dimensions of mechanical stimulation. A computer-controlled motor was used to apply prescribed forces (5-90 g) to a nociceptor's receptive field, with flat-tipped, cylindrical probes of various sizes (contact areas: 0.1-5.0 mm2). ⋯ Thus only the MIAs appeared to have the capacity to unambiguously encode mechanical stimulus intensities above pain threshold. The MSAs, on the other hand, exhibited their greatest dynamic response range near the threshold for nonpainful sharpness. Thus the group of afferents commonly defined as nociceptors exhibit a heterogeneity of mechanical response properties, which may serve functionally different roles for perception.