Brain research
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Comparative Study
Organization of neurons forming the femoral, sciatic, common peroneal and tibial nerves in rats and monkeys.
Our study shows that, using Elliott's method, 6 major groups of neurons can be identified in the lumbosacral cord segments of both monkeys and rats. These are the medial (m), ventromedial (vm) anterolateral (al), central (c), posterolateral (pl) and post-posterolateral (ppl) groups; they are, except for minor differences, similarly arranged in neonatal, immature, and mature monkeys and rats. Localization of neurons by the horseradish peroxidase method reveals that the sciatic nerve (ScN) neurons are distributed to L4-L7 segments in all monkeys studied and also to the rostral part of S1 segment in some monkeys. ⋯ There is also no significant difference in the counts of labeled right and left ScN neurons. The histograms showing the number of labeled ScN neurons against their diameters are very similar in both rats and monkeys. In both animals, the diameters of ScN neurons vary widely between 3 and 53 microns.
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In decerebrate-decerebellate cats, dorsal column stimulation (DCst) rostral to selective dorsal funicular cuts, to prevent antidromic activation of afferent DC fibers, produced primary afferent depolarization and modulated reflexes at the lower spinal level. These findings indicate the importance of a DC-brainstem-spinal loop in explaining the effects of DC stimulation in man and experimental animals.
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The location and properties of the cutaneous receptive fields responsible for detecting the flexor withdrawal reflex in the posterior head of biceps femoris (pBF) and semitendinosus (ST) components of the hamstring muscle have been examined in unanaesthetized decerebrate rats, spinalized at T10-T11. Single alpha-motoneurone efferents were recorded from the nerve to pBF and the principal head of ST and their responses to ipsi- and contralateral hindlimb skin stimulation investigated. The efferents to both muscles characteristically had a low or absent background discharge and they all had mechanoreceptive fields on the ipsilateral foot. ⋯ Retrograde labelling of the hamstring motoneurones with WGA-HRP indicated that they lay in ventrolateral lamina IX extending from the caudal portion of the third lumbar segment to the junction of the 5th and 6th lumbar segments. Transganglionic labelling of small diameter primary afferent terminals in the dorsal horn of cutaneous nerves innervating the foot revealed that the longitudinal distribution corresponded closely with that of the hamstring motor nucleus. The flex-or reflex in the spinal rat provides a useful model therefore, for studying how the input in nociceptive afferents is processed and transformed within the spinal cord, to produce appropriate outputs.
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Nineteen convergent neurones, 19 'non-noxious only' neurones and 13 'proprioceptive' neurones all with peripheral excitatory receptive fields on the ipsilateral hindpaw, were recorded in the lumbar dorsal horn of non-spinalized, anaesthetized rats. These neurones were all excited by the electrophoretic application of glutamate; using 20 s applications of appropriate electrophoretic currents, almost identical levels of activity (around 30 spikes/s) were produced for each of the 3 types of neurones. The application of heterotopic noxious stimuli resulted in strong inhibitions of the glutamate-evoked activity of the convergent neurones. ⋯ The application to convergent neurones, of doses of glutamate, which were very much larger than the threshold for firing, produced an intense discharge followed by a progressive decrease in spike amplitude and finally a blocking of the spike discharge. During such sequences, which are typical of excessive depolarization, the application of noxious conditioning stimuli (e.g pinch of the contralateral hindpaw or muzzle) resulted in recovery of the spike discharge. In several cases, this recovery long outlasted the period of conditioning noxious stimulation.(ABSTRACT TRUNCATED AT 250 WORDS)
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Electrocortical and behavioral arousal are separate phenomena subserved by different neural substrata operating in parallel. A comprehensive theory of 'activation' must take into account the relationships between the electrical and behavioral activating systems. In pathological or experimentally induced states paradoxes, resolvable by a theory positing functional interaction between these systems, arise. ⋯ Consequently, rather than reaching a reasonable balance compatible with adaptive function there is oscillation between extremes. Each oscillatory movement is actually a move towards the 'golden mean' and is induced by deviation from this ideal but the defective homeostatic mechanisms promote ' perpetual ' overshooting. Lithium and ECT may be useful in the treatment of rapidly-cycling patients as both treatments may down-regulate muscarinic receptors, and otherwise modify cholinergic and monoaminergic systems in ways promoting homeostasis.(ABSTRACT TRUNCATED AT 400 WORDS)