Single unit responses of the reticular and ventral anterior nuclei of the thalamus to electrical stimulation of the centrum medianum

In acute experiments on cats anesthetized with thiopental (30–40 mg/kg, intraperitoneally) and immobilized with D-tubocurarine (1 mg/kg) responses of 145 neurons of the reticular and 158 neurons of the ventral anterior nuclei of the thalamus to electrical stimulation of the centrum medianum were investigated. An antidromic action potential appeared after a latent period of 0.3–2.0 msec in 4.1% of cells of the reticular nucleus and 4.4% of neurons of the ventral anterior nucleus tested in response to stimulation. The conduction velocity of antidromic excitation along axons of these neurons was 1.7–7.6 m/sec. Neurons responding with an antidromic action potential to stimulation both of the centrum medianum and of other formations were discovered, electrophysiological evidence of the ramification of such an axon. Altogether 53.8% of neurons of the reticular nucleus and 46.9% of neurons of the ventral anterior nucleus responded to stimulation of the centrum medianum by orthodromic excitation. Among neurons excited orthodromically two groups of cells were distinguished: The first group generated a discharge consisting of 6–12 action potentials with a frequency of 130–640 Hz (the duration of discharge did not exceed 60 msec), whereas the second responded with a single action potential. Inhibitory responses were observed in only 0.7% of neurons of the reticular nucleus and 4.4% of the ventral anterior nucleus tested. Afferent influences from the relay nuclei of the thalamus, lateral posterior nucleus, and motor cortex were shown to converge on neurons responding to stimulation of the centrum medianum.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 12, No. 1, pp. 36–45, January–February, 1980.     

Direct projections of the thalamic centrum medianum in the cerebral cortex of the cat (radioautographic studies)

After injection of radioactive amino acids into the cat thalamic centrum medianum, its projections have been revealed in the ipsilateral hemisphere in the frontal, motor, limbic, orbital and basal temporal cortex, in the parasubiculum and striatum. The anterograde tracing of the fibers and terminals reveals the centrum medianum projections in the layers VI-V and I of the frontal and limbic cortex and in the layers VI-V, IV or III (or in both) and in I of the motor and orbital cortex.     

Efferent connections of the nucleus lateralis posterior-pulvinar complex in the cat.

The nucleus lateralis posterior-pulvinar complex of the thalamus displays an integrative function. The efferent connections of this nuclear group were examined by the authors in the cat. In their work, they utilized also the earlier observations on the afferent connections of the nucleus. The nuclear complex projects to the associative fields encompassed by the visual- and the acoustic cortex without intruding into the primary cortical areas. On the other hand, its afferent connections are, apart from the associative field, also yielded by the primary visual and acoustic cortex. All this is completed by the reciprocal connections of the LP-pulvinar complex with the visual- and acoustic system, as well as between the associative areas of the cortex.     

Response of caudate nucleus neurons to acoustic stimulation during functional blockade of the thalamic centrum medianum in the cat

The response of caudate nucleus neurons to acoustic stimulation (a click at 0.5 Hz) was investigated during chronic experimentation in cats using intracellular techniques and reversible blockage of the thalamic centrum medianum produced by anode polarization. Having analyzed poststimulus histograms it was found that the response of phasic activation to an acoustic signal decreased, and disappeared in 52% of neurons. A reduction in the level of spontaneous activity was also observed in neurons of the caudate nucleus. The significance of a direct pathway from the thalamic centrum medianum to the caudate nucleus is discussed from the viewpoint of acoustic signal transmission to caudate nucleus neurons.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 18, No. 1, pp. 92–99, January–February, 1986.     

Efferent connections of the striatum with the Ep field of the temporal cortex in the cat

When horseradish peroxidase was injected into the Ep area of the temporal cortex of 5 cats, the distribution of the labelled neurons in the strio-pallidum and in the nucleus of Meynert was similar in all the cases. In the striatum predominantly large cells (in the nucleus caudatus and in the putamen), as well as middle and small (in the putamen) cells were labelled. Comparing the form and size of the labelled cells in the striatum, revealed in Golgi preparations, it is possible to conclude that large labelled neurons correspond to long-axonal sparsely-branching reticular neurons, and middle and small--to long-axonal densely-branching dendroid "spinular" neurons. The large cells of the striatum can be considered as a part of a vast macrocellular ascending system of the forebrain, its preservation maintains the higher integrative functions of the brain.     

Efferent connections of the caudate nucleus in cats

Structural and ultrastructural changes in the frontal areas of the cortex and in the region of the globus pallidus were investigated after local and extensive destruction of the caudate nucleus. It was shown by the Fink-Heimer method that after local injury to the caudate nucleus by means of electrodes implanted 2–16 months before electrolytic destruction, only a few degenerating fibers of medium and thin caliber were present. Extensive destruction of the caudate nucleus (without preimplantation of electrodes) was followed by massive degeneration of fibers of different caliber in the frontal area of the cortex. After local injury to the caudate nucleus numerous thin degenerating axons 0.5–0.6 µ in diameter and degenerating terminals were found in the region of the globus pallidus. Degenerative changes in the axo-dendritic and axo-somatic terminals followed the "dark" type of course. It is concluded that no considerable direct projections of neurons of the caudate nucleus are present in the cortex. Degenerating fibers of average caliber in frontal areas of the cortex after destruction of the caudate nucleus are evidently axons of thalamic neurons and not from cells of the damaged nucleus.A. A. Bogomol'ets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 7, No. 2, pp. 165–171, March–April, 1975.     

Efferent connections of area 17 in Galago

Lesions were made in dorsal area 17 of ten Galago. Subsequently degenerating efferent fibers were traced to their termination sites with the Fink-Heimer silver impregnation method. The supragranular layers of area 17 send a strong projection onto the underlying layer V and onto the ipsilateral area 18. Area MT, the superior colliculus, the pulvinar, and the pons also receive a projection from the ipsilateral area 17.     

Sources of ascending afferent projections to the midbrain central tegmental area and centrum medianum thalami in cats

After microinjections of horseradish peroxidase into the central tegmental area of the midbrain and centrum medianum thalami in cats, labeled neurons were found in the nucleus of the tractus solitarius, gracile and cuneate nuclei, spinal nuclei of the trigeminal nerve, the external nucleus and nucleus of the brachium of the inferior colliculus, the medial pretectal region, nucleus of the posterior commissure and stratum intermediale of the superior colliculus, and reticular structures of the medulla and pons. Comparison of the location of the sources of ascending afferent projections in the central tegmental area of the midbrain and centrum medianum thalami showed that the reticular formation receives mainly visceral projections through the nucleus of the tractus solitarius, whereas the centrum medianum thalami is innervated mainly by the system of sensory somatic nuclei.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 14, No. 2, pp. 172–178, March–April, 1982.     

Efferent projections of mesencephalic locomotor neurons in the cat

Efferent neuronal projections of the mesencephalic locomotor region were investigated in cats using a horseradish peroxidase retrograde axonal transport technique. It was found that neurons located within the locomotor area form ascending and descending projections to many structures of the spinal cord and the brain but that short-axon connections running to the reticular formation of the midbrain and the medulla predominate. Small numbers of long-axon fibers may merge into the locomotor strips of the medulla and the spinal cord. The locomotor regions of the two halves of the midbrain are interlinked.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 18, No. 1, pp. 117–125, January–February, 1986.     

A combined horseradish peroxidase and Golgi study on the afferent connections of the ventrobasal complex of the thalamus in the cat

Summary Afferent connections to the ventrobasal complex (VB) of the thalamus were studied by means of retrograde transport of horseradish peroxidase (HRP) and by the Golgi-method. After HRP-injection into the VB, peroxidase-positive cells were observed contralaterally in the dorsal column nuclei (DCN), in the trigeminal nuclei and in the lateral cervical nucleus (LCN), and ipsilaterally in the somatosensory I (SI) and II (SII) cortical areas. Labeled cells of different shape and size were compared with neurons impregnated by the Golgi-technique. On the basis of HRP-labeling it is concluded that cells projecting to the VB are different in size and shape even within one region and that they correspond to the relay or efferent neurons observed in the Golgimaterial.