The Journal of comparative neurology
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The origins and routes of the postganglionic sympathetic nerve supply to the upper and lower uterus and to the cervix were investigated in the rat by using denervation procedures combined with immunohistochemistry and retrograde tracing. The sympathetic nerve fibers of the upper part of the uterus arise from the ovarian plexus nerve. They mainly originate (90%) from neurons of the suprarenal ganglia (SRG) and of the T10 to L3 ganglia of the paravertebral sympathetic chain. ⋯ In addition, some axons supplying the lower uterus follow the superior vesical arteries and then reach the organ. Taken together, these results show that the upper region of the uterus receives a sympathetic innervation that is different in origin and route from that of the lower uterus and the cervix. Such a marked region-specific innervation suggests that nerve control of the myometrial activity may be functionally different between the oviduct and the cervical ends of the uterus.
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Stimulation of the somatosensory system is more likely to evoke pain in patients with chronic pain after nervous system injury than in patients without somatosensory abnormalities. We now describe results of stimulation through a microelectrode at microampere thresholds (threshold microstimulation; TMIS) in the region of the human thalamic principal sensory nucleus (ventral caudal; Vc) during operations for treatment of movement disorders or of chronic pain. Patients were trained preoperatively to use a standard questionnaire to describe the location (projected field) and quality of sensations evoked by TMIS intraoperatively. ⋯ In both the core and the posterior-inferior regions, the proportion of sites where TMIS evoked pain was larger in pain-affected and unaffected areas than in control areas. The number of sites where thermal (warm or cold) sensations were evoked was correspondingly smaller, so that the total of pain-plus-thermal (sensation of warmth or cold) sites was the same in all areas. Therefore, sites pain where stimulation evoked pain in patients with neuropathic pain (i.e., pain following an injury to the nervous system) may correspond to sites where thermal sensations were evoked by stimulation in patients without somatosensory abnormality.
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It is well known that experimentally induced cochlear damage produces structural, physiological, and biochemical alterations in neurons of the cochlear nucleus. In contrast, much less is known with respect to the naturally occurring cochlear pathology presented by congenital deafness. The present study attempts to relate organ of Corti structure and auditory nerve activity to the morphology of primary synaptic endings in the cochlear nucleus of congenitally deaf white cats. ⋯ Primary neurons of hearing-impaired cats displayed structural abnormalities of their endbulbs and synapses in the cochlear nucleus which were intermediate in form compared to normal and totally deaf cats. Changes in endbulb structure appear to correspond to relative levels of deafness. These data suggest that endbulb structure is significantly influenced by sound-evoked auditory nerve activity.
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Neuropathic pain accompanies peripheral nerve injury following a variety of insults including metabolic disorders, traumatic injury, and exposure to neurotoxins such as vincristine and taxol. Vincristine, a microtubule depolymerizing drug, produces a peripheral neuropathy in humans that is accompanied by painful paresthesias and dysesthesias (Sandler et al., [1969] Neurology 19:367-374; Holland et al. [1973] Cancer Res. 33:1258-1264). The recent development of an animal model of vincristine-induced neuropathy provides an opportunity to investigate mechanisms underlying this form of neuropathic pain. ⋯ This decrease in microtubule density was due to a significant increase in the cross-sectional area of unmyelinated axons, suggesting swelling of axons. In addition, vincristine-treated axons had significantly fewer microtubules cut in cross-section and significantly more tangentially oriented microtubules per axon compared to controls. These results suggest that vincristine causes disorganization of the axonal microtubule cytoskeleton, as well as an increase in the caliber of unmyelinated sensory axons.
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Aging leads to alterations in the function and plasticity of hippocampal circuitry in addition to behavioral changes. To identify critical alterations in the substrate for inhibitory circuitry as a function of aging, we evaluated the numbers of hippocampal interneurons that were positive for glutamic acid decarboxylase and those that expressed calcium-binding proteins (parvalbumin, calbindin, and calretinin) in young adult (4-5 months old) and aged (23-25 months old) male Fischer 344 rats. Both the overall interneuron population and specific subpopulations of interneurons demonstrated a commensurate decline in numbers throughout the hippocampus with aging. ⋯ This loss contrasts with the reported preservation of pyramidal neurons with aging in the hippocampus. Functional decreases in inhibitory drive throughout the hippocampus may occur due to this loss, particularly alterations in the processing of feed-forward information through the hippocampus. In addition, such a profound alteration in interneuron number will likely alter inhibitory control of excitability and neuronal synchrony with behavioral states.