Journal of neurophysiology
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In the auditory cortex of barbiturate-anesthetized cats, the posterior auditory field (field P) was identified by its tonotopic organization, and single neurons in that field were studied quantitatively for their sensitivity to the frequency and intensity of tonal stimuli presented via calibrated, sealed stimulating systems. Field P neurons had narrow, V-shaped, threshold frequency tuning curves. At suprathreshold levels, spike counts were generally greatest at frequencies at or close to the neuron's threshold best frequency (BF). ⋯ For other neurons, the optimal sound pressure level tended to be constant across frequency despite threshold variations of up to 20 dB. The minimum response latencies of posterior-field neurons were generally in the range of 20-50 ms, while cells in the primary auditory cortex (AI) in the same animals generally had minimum latent periods of less than 20 ms. Comparison of these data with those previously presented for neurons in two other cortical auditory fields suggests that the cat's auditory cortex might show an interfield segregation of neurons according to their coding properties.
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Several identified neurons of the Aplysia buccal ganglia respond to choline. Iontophoretic applications of either choline or acetylcholine (ACh) to voltage-clamped inhibitory follower neurons produce similar currents. Peak amplitudes of choline responses were 10-100% of ACh responses on the same cell. ⋯ Both the time integral of synaptic conductance and the ratio of synaptic charge transfer to peak synaptic current of the early inward component of the cell 7 response are reduced by depolarization. Voltage-dependent duration thus combines with reduced driving force in diminishing the excitatory effect of this component at depolarized levels, allowing the inhibitory component to predominate. In this diphasic synapse, voltage dependence of the time course of one component thus serves an easily identified function.
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Comparative Study
Quantitative comparison of inhibition in spinal cord of nociceptive information by stimulation in periaqueductal gray or nucleus raphe magnus of the cat.
The descending inhibition of spinal neuronal responses by focal electrical stimulation in the periaqueductal gray (PAG) or nucleus raphe magnus (NRM) was quantitatively studied and compared in the anesthetized, paralyzed cat. All 60 dorsal horn neurons studied were driven by electrical stimulation of hindlimb cutaneous nerves at strengths supramaximal for activation of A-alpha,delta- and C-fibers, and 52 also responded to noxious radiant heating (50 degrees C, 10 s) of the skin of the foot- or toepads; 8 units had receptive fields in the hairy skin of the hindlimb. All neurons studied also responded to mechanical stimuli; recording sites were located in laminae I-VI of the dorsal horn. ⋯ The responses of the class 2 and class 3 spinal units examined to increasing temperatures of heat applied to the skin was a monotonic linear function throughout the temperature range studied (42-50 degrees C). Stimulation in the PAG decreased the slope of the stimulus-response function (SRF) without affecting unit thresholds of response, thus influencing the gain control of nociceptive transmission in the dorsal horn. Stimulation in the NRM produced a parallel shift to the right of the SRF, influencing the set point and threshold of response.(ABSTRACT TRUNCATED AT 400 WORDS)
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Rapid-onset thermal pulses (38 degrees C X s-1) ranging from 43 to 60 degrees C (adapting temperature, 38 degrees C) were applied by contact thermodes to the shaved outer thighs of 29 partially restrained cats while they were eating (coincident stimuli) or between eating periods (noncoincident stimuli). The stimulus-associated probability and latency of three putative nocifensor responses were determined: interruption of eating or of exploration for food, hindlimb movement, and vocalization. These behavioral responses terminated the stimulus. ⋯ No significant relationship was found between response latency and type of response or stimulus intensity. The composition and time of onset of heat-evoked afferent activity in the lateral femoral cutaneous nerve was investigated in six cats by colliding antidromic A-delta- and C-fiber volleys with the orthodromic discharge evoked by the thermodes used in the behavioral studies. There was no evidence that noxious thermal pulses evoked activity in A-delta-afferents, but C-fibers could be shown to become active at approximately 46 degrees C, at or before the onset of the thermal pulse plateau.(ABSTRACT TRUNCATED AT 400 WORDS)
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Recordings were made from single SI cortical neurons in the anesthetized macaque monkey. Each isolated cortical neuron was tested for responses to a standard series of mechanical stimuli. The stimuli included brushing the skin, pressure, and pinch. ⋯ The stimulus-response functions obtained from noxious thermal stimulation of the contralateral hindlimb were not different from cortical nociceptive neurons with small receptive fields. However, nociceptive neurons with large receptive fields exhibited a consistent adaptation during a noxious heat pulse of 47 and 50 degrees C. Based on the response characteristics of these two populations of cortical nociceptive neurons, we conclude that neurons with small receptive fields possess the ability to provide information about the localization, the intensity, and the temporal attributes of a noxious stimulus.4+.