Short-latency unit responses of the lateral geniculate body to electrical stimulation of the optic tract in rats

Short-latency responses of single relay neurons of the lateral geniculate body to electrical stimulation of the optic tract were studied. The response of many neurons was complex and could consist of a series of (1–3) spikes with fixed latent periods. Each spike of such a response can be recorded on the EPSP in the absence of other spikes, preserving its latent period. The fixed latent periods of different relay neurons may vary from one to another. In the intervals between spikes with these latent periods active inhibition (IPSP) takes place. The series of spikes, EPSP, and IPSP is completed, as a rule, by a long IPSP.M. V. Lomonosov Moscow State University. Translated from Neirofiziologiya, Vol. 5, No. 1, pp. 28–32, January–February, 1973.     

Unit responses of the cat lateral geniculate bodies to visceral and somatic stimulation

Acute experiments on cats anesthetized with pentobarbital and immobilized with Diplacin or Listhenon showed that electrical stimulation of the vagus, splanchnic, pelvic, and sciatic nerves and also of the mesencephalic reticular formation induces either a prolonged change in the frequency of unit activity or phasic responses of single units of the lateral geniculate body. During stimulation of the visceral nerves tonic changes in unit activity were predominant, whereas phasic responses were found more often during somatic stimulation. Most neurons tested responded to all types of stimulation used and only 15–18% responded only to the specific stimulus: photic stimulation of the receptive field. The results suggest that interaction of visceral, somatic, and sensory-specific excitation takes place on single neurons of the lateral geniculate body.Institute of Experimental Medicine, Academy of Medical Sciences of the USSR, Leningrad. Ivano-Frankovsk Medical Institute. Translated from Neirofiziologiya, Vol. 5, No. 3, pp. 246–252, May–June, 1973.     

Dependence of unit responses of the catlateral geniculate body on photic stimulus contrast

Unit responses in the lateral geniculate body of cats to photic stimuli of different contrast were investigated. The number of spikes in the initial phase of the responses (the first 30–45 msec) was found not to change at first, but then to decrease with an increase in the intensity of background illumination. The background intensity starting from which the response diminishes was shown to increase with an increase in the intensity of the test stimulus. The unit response is a linear function of the logarithm of stimulus contrast if the contrast is changed through variation of the intensity of the test stimulus. If contrast increases on account of a decrease in the intensity of background illumination the responses first increase and then remain unchanged. The range of contrasts within which the response is a linear function is narrowed if the intensity of the test stimulus is reduced. Counting the number of spikes in different time intervals of the response (t) showed that the greater the value of t (within the first 70–90 msec of the response) the steeper the curve of the number of spikes as a function of contrast. The Weber-Fechner law applies in the receptive field of the lateral geniculate body. The results are compared with those of some psychophysiological experiments.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 9, No. 3, pp. 267–274, May–June, 1977.     

Unit responses in the cat auditory cortex to medial geniculate body stimulation

Responses of 98 auditory cortical neurons to electrical stimulation of the medial geniculate body (MGB) were recorded (45 extracellulary, 53 intracellularly) in experiments on cats immobilized with tubocurarine. Responses of the same neurons to clicks were recorded for comparison. Of the total number of neurons, 75 (76%) responded both to MGB stimulation and to clicks, and 23 (24%) to MGB stimulation only. The latent period of extracellularly recorded action potentials of auditory cortical neurons in response to clicks varied from 7 to 28 msec (late responses were disregarded), and that to MGB stimulation varied from 1.5 to 12.5 msec. For EPSPs these values were 8–13 and 1–4 msec respectively. The latent period of IPSPs arising in response to MGB stimulation varied from 2.2 to 6.5 msec; for 34% of neurons it did not exceed 3 msec. The difference between the latent periods of responses to clicks and to MGB stimulation varied for different neurons from 6 to 21 msec. Responses of 11% of neurons to MGB stimulation, recorded intracellularly, consisted of sub-threshold EPSPs, while responses of 23% of neurons began with an EPSP which was either followed by an action potential and subsequent IPSP or was at once cut off by an IPSP; 66% of neurons responded with primary IPSPs. Neurons responding to MGB stimulation by primary IPSPs are distributed irregularly in the depth of the cortex: there are very few in layers III and IV and many more at a depth of 1.6–2 mm. Conversely, excited neurons are predominant in layer III and IV, and they are few in number at a depth of 1.6–2 mm. It is concluded that the afferent volley reaching the auditory cortex induces excitation of some neurons therein and, at the same time, by the principle of reciprocity, induces inhibition of others. This afferent inhibition takes place with the participation of inhibitory interneurons, and in some cells the inhibition is recurrent. The existence of reciprocal relationships between neurons in different layers of the auditory cortex is postulated.A. A. Bogomolets' Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 4, No. 1, pp. 23–31, January–February, 1972.     

Evoked potentials in the visual and association cortex of alert cats during paired uniform stimulation of the lateral geniculate body and pulvinar

Recovery curves of evoked potentials in the association and visual cortex during paired stimulation of the pulvinar in chronic experiments on alert cats were shown to be similar in character. Depression of the test response was observed only if the interval between stimuli was of the order of 10 msec, but if it was 40 msec considerable (2–4 times) facilitation of the second response was observed, mainly on account of an increase in the negative component N₁. Facilitation was less marked if the intervals were from 60 to 100 msec, and they decreased gradually to an interval of 200 msec. The recovery curve of cortical evoked potentials during paired stimulation of the lateral geniculate body differed considerably from the recovery curve during paired stimulation of the pulvinar and was characterized by a gradual increase in amplitude of the second response — from its almost total suppression with an interval of 10 msec to slight facilitation with an interval of 200 msec. If intervals of 10 to 80 msec were used, the test response was restored more slowly in the association cortex than in the visual cortex. The results are discussed from the standpoint of differences in the character of intracortical spread of excitation as a result of activation of geniculo-cortical and pulvinar-cortical pathways of conduction of information.Institute of Higher Nervous Activity and Neurophysiology, Academy of Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 16, No. 4, pp. 497–505, July–August, 1984.     

Threshold and temporal characteristic of unit responses of the cat lateral geniculate body to electrical stimulation of the optic tract

Unit responses of the lateral geniculate body of the immobilized cat to electrical stimulation of the optic tract were studied. Responses of about 80 cells were compared and histograms of latencies and thresholds of their responses to electrical stimulation of their afferents were plotted. The distribution of the cells by latent periods was bimodal and by thresholds monomodal. Correlation was established between the various parameters of the cell reponses to electrical stimulation of afferents and to light. Correlation analysis showed that the cell population investigated is heterogeneous and consists of three groups.Institute of Higher Nervous Activity and Neurophysiology, Academy of Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 5, No. 5, pp. 485–489, September–October, 1973.     

Unit responses of the pericruciate cortex to stimulation of the medial geniculate body

Responses of 239 neurons of the pericruciate cortex to stimulation of the medial geniculate body and pyramidal tract were investigated (189 extracellularly, 50 intracellularly) in cats anesthetized with thiopental and immobilized with D-tubocurarine. In response to stimulation of the medial geniculate body, the mean spontaneous firing rate of 63.6% of neurons in the pericruciate cortex increased by 10–25%, in 23.6% of neurons it decreased within the same limits, and mixed effects were observed in 5.5% of neurons. Phasic responses to single stimulation of the medial geniculate body were observed in 20% of neurons of the pericruciate cortex. Responses with a latent period of 0.3–1.0 msec (16%) were classed as antidromic, those with a latent period of 1.5–2.0 msec (20%) as orthodromic, monosynaptic, and those with a latent period of 2.5–4.0 msec or more (64%) as polysynaptic. With intracellular recording, excitatory responses of the EPSP, EPSP-AP, and AP type with latent periods of between 1.3 and 19.5 msec developed in 78.2% of cells. IPSPs, which were recorded in 21.8% of neurons, were usually found as components of mixed responses; primary IPSPs were found in only two cases. Monosynaptic connection of the medial geniculate body was shown to take place with neurons of the pericruciate cortex that did not belong to the pyramidal tract.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 11, No. 1, pp. 18–24, January–February, 1979.     

Corticofugal control of unit responses of the cat lateral geniculate body

Acute experiments on anesthetized cats showed that blocking the projection connections of the cortex unilaterally increased the number of lateral geniculate neurons which generated long-latency phasic responses and the number of spikes in the responses of single neurons. Unit responses were monophasic more frequently in the lateral geniculate body on the side of the operation than in the same structure on the opposite side. On the basis of these results a hypothesis is developed to explain the mechanisms of monomodal descending cortical effects in microsystems of neurons of the lateral geniculate body.Institute of Experimental Medicine, Academy of Medical Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 5, No. 4, pp. 367–374, July–August, 1973.     

Electrophysiologic relations in the lateral geniculate body

Responses were evoked in the lateral geniculate body (L.G.B.) of "encéphale isolé" cats by single-shock stimulation of either the geniculate body or the optic tract of the other side. Responses to optic tract stimulation were modified following excitability changes in the contralateral L.G.B. due to topical application of strychnine and KCl. Laminar stimulation and recording in different layers (A, A1, and B) suggested the existence of a certain homotopic organization of L.G.B. interconnections. The activity evoked in the L.G.B. was found to be abolished by electrocoagulation of the posterior commissure and intermediate gray matter. These results point to the presence of a transthalamic pathway which might mediate L.G.B. activity to the contralateral visual cortex.     

Effect of electrodermal stimulation on single unit responses to acoustic stimulation in the parvocellular part of the medial geniculate body

The effect of electrodermal stimulation of the contralateral forelimb on responses arising in neurons of the parvocellular part of the medial geniculate body (MGB) to clicks was studied in cats anesthetized with thiopental and immobilized with myorelaxin (suxamethonium). Neurons whose responses to clicks were inhibited by electrodermal stimulation were located in zones of the parvocellular part of MGB adjacent to the posterior ventral nucleus and magnocellular part of MGB. Electrodermal stimulation had no effect on unit responses in more lateral zones of the parvocellular part. Intracellularly recorded responses of most neurons to clicks were of the EPSP-spike-IPSP or EPSP-IPSP type, whereas those to electrodermal stimulation were of the IPSP type only. Inhibition of responses under the influence of electrodermal stimulation could arise both in the presence and absence of an IPSP in the neuron. The mechanisms of the inhibitory effect of electrodermal stimulation on responses arising in neurons of the parvocellular part of MGB to stimulation by clicks are discussed.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 12, No. 2, pp. 175–181, March–April, 1980.     

Plastic response changes in neurons from lateral geniculate body in rats submitted to conditional reflectory stimulation]

In alert curarized rats the influence of an electric stimulation of the tail skin on the flash-evoked activity of single units of the dorsal part of the lateral geniculate body (CGLd) was investigated. The light flashes were applied 400 msec prior to the electric shocks. 50% of the units showed a change of the response pattern to flash. In the majority of cases the response shifts consisted in a facilitation, which developed gradually and persisted in most of the units examined, even when the electrical stimulus was no longer given in combination with the light. The results are discussed taking into consideration the possibility of an altered emotional or motivational status of the animal, which could play a role in the development of plasticity at the unitary level.