Journal of neurophysiology
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This study tested the hypothesis that neurons of thalamic nuclei, which are normally devoid of inputs from the reticular thalamic nucleus, do not display spindle oscillations and related rhythmic spike bursts. This proposal derived from our recent studies indicating that the reticular nucleus is the generator of spindling rhythmicity. We used retrograde tracing methods, intracellular recordings in barbiturized cats, and extracellular recordings of single neurons and field potentials in anteroventral (AV), anteromedial (AM), ventroanterior (VA), ventrolateral (VL), and central lateral (CL) thalamic nuclei in cats with rostral brain stem transections (cerveau isolé preparations), before and after administration of barbiturates. ⋯ Spindling could be induced in AV-AM nuclei only after administration of barbiturates at doses exceeding 3 mg/kg, and it appeared approximately 35-40 s after the barbiturate effect was detected in the simultaneously recorded CL nucleus. Moreover, the spike bursts that were elicited in AV-AM neurons after barbiturate administration were not temporally related with focal spindles. Since spindle oscillations did not appear intracellularly in AV-AM neurons, the possibility was envisaged that barbiturate-induced spindles were the passive reflection of field potentials actively generated in neighboring thalamic nuclei.(ABSTRACT TRUNCATED AT 400 WORDS)
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Neural mechanisms for evoking saccadic eye movements by microstimulation of the posterior vermis were investigated in monkeys trained to fixate a visual target. The low-threshold region from which saccadic eye movements could be evoked with currents less than 10 microA was confined to lobule VII in two monkeys and it included a posterior part of lobule VI (lobule VIc) in another monkey. The region from which saccade-related neural activity was recordable coincided with the low-threshold region. ⋯ In the folia with normal Purkinje cell layers, the amplitude and direction of evoked saccades and the thresholds for evoking such eye movements were almost comparable to the preoperative data. Saccadic eye movements in response to microstimulation of the posterior vermis were caused by orthodromic impulses conveyed through the axons of the Purkinje cells. Insofar as the saccades elicited from lobule VII with currents less than 10 microA are concerned, antidromic activation of the afferent fibers is not the neural mechanisms subserving the oculomotor responses.
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The discharge rates of single auditory-nerve fibers responding to best-frequency (BF) tones of varying level presented simultaneously with fixed level broadband noise were recorded with and without electrical stimulation of the crossed olivocochlear bundle (COCB). In the absence of COCB stimulation, monotonic increases in noise level produce monotonic increases in the low-level noise-driven response rate of auditory nerve fibers. As a result of adaptation, these increases in noise-driven response rate produce monotonic decreases in saturation discharge rate. ⋯ These interactions were further investigated by recording auditory nerve fiber rate responses to fixed-level BF excitor tones presented simultaneously with fixed-frequency variable level suppressor tones. Rate responses were recorded with and without COCB stimulation. Experimental results were quantified using a phenomenological model of two-tone rate suppression presented by Sachs and Abbas.
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The excitability properties of turtle olfactory nerve (o.n.) were studied in vitro using potassium-sensitive microelectrodes (KSM), a modified sucrose gap chamber, and a standard nerve chamber to measure conduction velocity. A pronounced supernormal period (SNP), as indicated by increased conduction velocity of the o.n. fiber volley, lasting up to several seconds, was observed following a single stimulus. The compound action potential recorded in the sucrose gap chamber showed a prolonged depolarization with a similar time course to the SNP. ⋯ The excitability of these neighboring nonactivated fibers was increased, further indicating the importance of activity-dependent changes in [K+]o in modulating axonal excitability. These results demonstrate the importance of activity-dependent increases in extracellular potassium in modulating nonmyelinated o.n. fiber excitability. They also indicate that increases in [K+]o and an associated membrane depolarization contribute to the increased excitability observed during fiber recruitment and the supernormal period.
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A total of 51 dorsal horn units responsive to heat were isolated and their receptive fields characterized (i.e., response properties and adequate stimuli determined) in pentobarbital-anesthetized, paralyzed rats. In 39 of the 51 units, the descending inhibition of heat-evoked activity produced by focal electrical stimulation in the locus ceruleus/subceruleus (LC/SC) was examined. All units studied responded to mechanical stimulation, to electrical stimulation of the ipsilateral tibial nerve at intensities supramaximal to activate A-alpha, delta- and C-fibers, and to noxious heating (50 degrees C) of the footpad. ⋯ Systematic electrode tracks were made through the pons, using a searching stimulus of 100 microA, to locate sites medial, lateral, and ventral to the LC/SC from which significant descending inhibition could be produced. Stimulation in 156 sites outside the LC/SC at 100 microA produced inhibition of heat-evoked spinal unit activity to 50% of control or less in only 37 sites. Descending inhibition was characterized quantitatively from 14 of these 37 sites; the mean intensities of stimulation to inhibit heat-evoked activity to 50% of control were experimentally determined, and the mean thresholds of stimulation for inhibition and the mean recruitment indices were calculated.(ABSTRACT TRUNCATED AT 400 WORDS)