Journal of neurophysiology
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Recordings were made from convergent neurons in the lumbar dorsal horn of the spinal cord of the rat. These neurons were activated by both innocuous and noxious mechanical stimuli applied to their excitatory receptive fields located on the extremity of the hindpaw. Transcutaneous application of suprathreshold 2-ms square-wave electrical stimuli to the center of the excitatory field, resulted in responses to C-fiber activation being observed. ⋯ Again, a second lesion including the ipsilateral DLF induced a blockade of DNIC. It is concluded that the descending projections involved in the triggering of DNIC are mainly, if not entirely, confined to the DLF ipsilateral to the neuron under study. The contralateral DLF did not appear to play a role in these processes.
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Single-unit electrical activity has been recorded from 122 viscerosomatic neurons in the T9 and T11 segments of the cat's spinal cord. These neurons were excited by electrical and/or natural stimulation of visceral and somatic afferent fibers. The majority of viscerosomatic neurons (72%) received somatic nociceptive inputs, either exclusively or together with low-threshold somatic inputs. ⋯ Sixteen percent of all viscerosomatic neurons tested showed no change in their responses to visceral stimulation during spinalization. It is concluded that the visceral input to viscerosomatic neurons in the lower thoracic spinal cord is under considerable descending control, which includes excitation as well as tonic inhibition of visceral afferent information. This may represent part of the widespread effects of visceral nociceptive stimulation.
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Extracellular recordings were made from 81 primate spinothalamic (STT) neurons in the L7-S1 segments of the spinal cord. The majority of the sample was recorded from within laminae IV-V. The temporal features of the responses to noxious thermal stimulation of glabrous and hairy skin were studied in an attempt to determine whether natural groupings of STT neurons could be identified on the basis of response time course alone and whether these groups were skin type dependent. ⋯ With one exception, no dependence upon the type of skin that was stimulated was found in the latencies of either the LP2 class or the shorter latency SP2 class. Prior conditioning of the skin with a 30-s thermal pulse of 51-55 degrees C led to a suppression of the early response phase and an enhancement of the late phase in nearly all cases examined (n = 11). This pattern was independent of skin type.(ABSTRACT TRUNCATED AT 400 WORDS)
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Extracellular recordings were made from 81 primate spinothalamic (STT) neurons in the L7-S1 segments of the spinal cord. The majority of the sample was recorded from within laminae IV-V. The responses of STT neurons to noxious thermal stimulation of glabrous and hairy skin were studied in an attempt to identify a neural substrate for the differences in thermal sensation evoked by noxious stimulation of these two types of skin. ⋯ These alterations in population behavior may underly the alterations in sensory quality in humans that occur in these temperature ranges when stimulating hairy and glabrous skin. The possible roles of the thermally and mechanically based classes in thermal intensity and quality coding were examined. Within the lower intensity ranges (less than 49-51 degrees C), the Cmnr and Dmnr classes appeared to be best suited to intensity coding.(ABSTRACT TRUNCATED AT 400 WORDS)
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We studied the effects of unilateral frontal eye-field (FEF) lesions on eye-head coordination in monkeys that were trained to perform a visual search task. Eye and head movements were recorded with the scleral search coil technique using phase angle detection in a homogeneous electromagnetic field. In the visual search task all three animals showed a neglect for stimuli presented in the field contralateral to the lesion. ⋯ The neglect is not due to a sensory deficit, but to a disorder of programming. The recovery from unilateral neglect after a FEF lesion is the result of a different orienting behavior, in which head movements become more important. It is concluded that the FEF plays an important role in the organization and coordination of eye and head movements and that lesions of this area result in subtle but permanent changes in eye-head coordination.