Brain research
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Comparative Study
Epidural resiniferatoxin induced prolonged regional analgesia to pain.
Adequate treatment of cancer pain remains a significant clinical problem. To reduce side effects of treatment, intrathecal and epidural routes of administration have been used where appropriate to reduce the total dose of agent administered while achieving regional control. Resiniferatoxin (RTX), an ultrapotent capsaicin analog, gives long-term desensitization of nociception via C-fiber sensory neurons. ⋯ Consistent with the regional selectivity of the lumbar epidural route, the front paws showed no more effect than by systemic RTX treatment. Binding experiments with [3H]RTX provided further evidence of the segmental desensitization induced by epidural RTX. We conclude that epidural administration of RTX at the lumbar spinal level produces profound, long-lasting, segmental analgesia to C-fiber mediated pain in the rat.
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Post-ischemic administration of 2-deoxy-D-glucose (2-DG), a glucose antimetabolite, markedly reduces the occurrence of ischemia-induced delayed neuronal death (DND) in the gerbil hippocampus. This means that the reduction of energy dependent metabolism after ischemia prevents ischemia-induced damages of hippocampal neurons. In the present study, we demonstrated hyperthermia during ischemia fails to preserve neurons in hippocampal CA1 of 2-DG treated gerbil following transient forebrain ischemia.
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Previous studies of traumatic brain injury (TBI) and hemorrhagic shock (HS) models, have shown cardiorespiratory depression in ethanol-treated animals. This study investigated the effects of ethanol (ET) on brain lactate concentrations and acidosis in a TBI/HS model. ⋯ In this TBI/HS model, ethanol-induced increases in lactate concentrations in brain tissue and cerebral venous blood are associated with respiratory depression and reduced organ blood flow.
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Prior studies suggest that prolactin (PRL) stimulates release of dopamine (DA) from tuberoinfundibular dopaminergic (TIDA) neurons. In the present study, the time course over which PRL exerts its effects on all three populations of neuroendocrine dopaminergic (DAergic) neuron populations [TIDA, tuberohypophyseal (THDA) and periventricular-hypophyseal (PHDA)] was determined. Ten days following ovariectomy (OVX), groups of female rats were injected either with 15 microg of ovine PRL (oPRL) or saline at 0900 h. ⋯ However, the second increase of DA turnover present in the ME of control animals never occurred in oPRL-treated animals. Furthermore, there were two increases in the concentration of DA in the AL: the first coincided with the increased turnover of DA in all three terminal areas and the second with increased DA turnover in the IL and NL. These data suggest that all three populations of hypothalamic neuroendocrine DAergic neurons are activated by PRL and that PHDA/THDA neurons have a second 'delayed' activation.
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Human handedness may be associated with asymmetry in the corticospinal motor system. Previous studies measuring the threshold for eliciting motor evoked potentials (MEPs) to transcranial magnetic stimulation (TMS) have provided evidence consistent with this hypothesis. However, TMS asymmetry observed in previous studies may have reflected cortical or spinal differences. ⋯ However, we observed that the number of scalp stimulation sites eliciting MEPs was statistically greater for APB and FCR muscles of the preferred limb. We found significant asymmetry between right-handed and left-handed subjects, such that in right-handers, the representation of the right APB was larger than that of the left APB, but in left-handers the representation of right APB was smaller than that of the left APB. These results suggest that handedness is associated with asymmetry in cortical motor representation.