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1

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Über die Glia marginalis und oberflächliche Nervenzellen im Hirnstamm der Katze (1968)

Petrovický, P. ; Fleischhauer, K.

Springer

Anatomy and embryology 127 (1968), S. 221-231

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ISSN: 1432-0568

Keywords: Marginal glia ; Superficial nerve cells ; Brain stem ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung An Paraffinschnitten durch perfusionsfixierte Gehirne von erwachsenen Katzen werden in der Glia marginalis des Hirnstamms unterschiedlich gebaute Bezirke beschrieben. Es wird gezeigt, daß über dem Nucleus paragigantocellularis und über dem Ncl. “z” swischen den Fasern der Glia marginalis Nervenzellen liegen. Über dem erstgenannten Kern stellen diese Zellen möglicherweise das morphologische Substrat der chemosensiblen Felder dar, die durch die physiologischen Untersuchungen von Loeschcke, Mitchell u.a. bekannt geworden sind.

Notes: Summary In the marginal glia covering the brain stem of the cat, regional differences are described in paraffin sections of brains which had been fixed by perfusion of Bouin's fluid. It is shown that between the glia fibres covering the nucleus paragigantocellularis and the nucleus “z” there are nerve cells. It is suggested that in the region of the nucleus paragiganto-cellularis these cells are the morphological substrate of a chemosensible zone described in physiological experiments by Loeschcke, Mitchell and others.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00526130

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Über die postnatale Zunahme des Capillarvolumens im Corpus callosum der Katze (1968)

Hetzko, D.

Springer

Anatomy and embryology 127 (1968), S. 138-144

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ISSN: 1432-0568

Keywords: Capillary density ; Postnatal development ; Corpus callosum ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung An Paraffinschnitten durch das Corpus callosum perfusionsfixierter Gehirne von 19 Katzen im Alter von einem Tag bis zu 2 1/2 Jahren wurde das Capillarvolumen bestimmt. Es beträgt bei der neugeborenen Katze 0,81 Vol.-%. In der 2. Lebenswoche beginnt eine Zunahme, die in der 5. Woche ein Maximum von 2,92 Vol.-% erreicht. Im Verlauf der 6. Woche setzt eine zunächst rasche, von der 7. Woche an aber nur noch langsam verlaufende Abnahme ein, bis bei einem Lebensalter von etwa 1 Jahr ein für das erwachsene Tier charakteristischer Wert um 1,5 Vol.-% erreicht wird. Die Abnahme des Capillarvolumens hängt mit der Markscheidenbildung und der dadurch bedingten Zunahme des Fasermaterials zusammen.

Notes: Summary Postnatal changes of capillary density have been determined in paraffin sections through the corpus callosum of 19 cats. At birth the capillary density amounts to 0.81 vol.-%. In the 2nd week of postnatal life it begins to increase and reaches a maximum of 2.92 vol.-% in the 5th week. From the 6th week onwards there is an initially steep and later on less pronounced decrease until at an age of about 1 year a value of about 1.5 vol.-% is reached, which is maintained in adult life. — The decrease in the percentage of capillary volume seen after the 5th week is caused by the rapid increase in fibrous material due to myelination.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00521979

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3

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Vergleichende Untersuchungen über die Reaktionsweise des jugendlichen und des erwachsenen Gehirnes nach intracerebraler Injektion von Aluminiumhydroxyd (1968)

Fleischhauer, K. ; Schmalbach, K.

Springer

Acta neuropathologica 11 (1968), S. 311-329

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ISSN: 1432-0533

Keywords: Alumina Cream ; Intracerebral Injection ; Pathology of Growing Brain ; Myelination ; Demyelination ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Zum Studium der Reaktion des jugendlichen und erwachsenen Gehirnes auf einen chronischen Reiz wurden bei Katzen verschiedenen Lebensalters intracerebrale Injektionen von Aluminiumhydroxyd vorgenommen. Die Tiere wurden nach Überlebenszeiten von 7 Tagen, 40 Tagen und 3 Monaten durch Perfusion mit Bouinscher Lösung getötet. Die histologische Untersuchung der Gehirne ergab eine Reihe von Unterschieden, je nachdem ob die Injektion vor oder nach der Markscheidenbildung erfolgt war. Besonders auffällig war der Befund, daß in der noch unmyelinisierten weißen Substanz jugendlicher Tiere kein Hirnödem und keine Gliose auftritt. Obgleich durch fluorescenzmikroskopische Untersuchungen gezeigt werden konnte, daß das Aluminium von der Injektionsstelle aus weit in das umgebende Hirngewebe eindringt und dort über lange Zeit festgehalten wird, werden bei den jungen Tieren die Markscheiden später bis in die unmittelbare Umgebung des Herdes normal angelegt. Bei erwachsenen Tieren kam es dagegen in der Nachbarschaft des Herdes stets zu einem starkem Ödem der weißen Substanz, zum Zerfall der Markscheiden und zu einer ausgebreiteten Gliose. Weitere Unterschiede in der Reaktionsweise des Gehirnes jugendlicher und erwachsener Tiere, die den Cortex und insbesondere die marginale Gliafaserschicht betreffen, werden im einzelnen beschrieben und diskutiert.

Notes: Summary In order to compare the reaction to chronic irritation of young and adult brain intracerebral injections of alumina cream were made in cats of various ages. The animals were killed by perfusion with Bouin's fluid after a survival time of 7 days, 40 days, and 3 months. Histological investigation revealed gross differences in the reaction according to whether the intracerebral injections had been made before or after myelination. Particularly striking was the finding that in the non-myelinated white matter of young animals there was no edema and no subsequent gliosis. Although alumina, as evidenced by fluorescence microscopy after staining with Morin, spreads into the tissue surrounding the focus, subsequent myelination appeared to be normal even in regions close to the site of injection. In contrast, injection into the brains of adult animals was followed by edema, widespread demyelination and gliosis of the white matter near the site of injection. Further differences between young and adult animals were found in the reaction of the grey matter and particularly of the marginal glia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00686728

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4

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The separation and identification of fractions of nonmyelinated axons from the cerebellum of the cat (1968)

Johnston, N. Lemkey ; Larramendi, L. M. H.

Springer

Experimental brain research 5 (1968), S. 326-340

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ISSN: 1432-1106

Keywords: Subcellular fractionation ; Parallel fiber axons ; Cerebellum ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Fractionation of the cat cerebellum has revealed that the parallel fibers of the cerebellar cortex break into two types of fragments which can be recognized in thin sections and in suspensions of negatively stained material. Fragmented material correlates well with electron micrographs of parallel fibers in situ. Parallel fiber axons and their bulbous presynaptic expansions sediment mainly into two subfractions. One unique layer consists of the intersynaptic tubular pieces of parallel fiber axons. Another layer is enriched in the synaptic portions which make contact with Purkinje spines. The possible contaminants of these fractions are discussed. These fractions may permit analysis of the chemical organization of conducting vis à vis synaptic membranes from a known anatomical source. This material was presented as a preliminary report at the Sixth Annual Meeting of the American Society for Cell Biology, November 1966, and is contained in J. Cell. Biol. 31, 52A, 1966.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235907

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Thiophen induced granule cell necrosis in the rat cerebellum an electron microscopic study (1968)

Herndon, Robert M.

Springer

Experimental brain research 6 (1968), S. 49-68

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ISSN: 1432-1106

Keywords: Cerebellum ; Granule cell ; Necrosis ; Synapse

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Granule cell necrosis was produced in rats by thiophen injection. The earliest detectable change was the formation of blebs in the perinuclear cisternae. This was followed by precipitation of the nuclear chromatin and rupture of the cell membrane. Removal of the cell debris was accomplished by phagocytic cells in the walls of small blood vessels, hematogenous macrophages and astrocytes. Many of the mossy fiber endings and some of the Golgi II cells degenerated secondarily. The degenerated presynaptic contacts of the parallel fibers were replaced by processes of the Bergmann glia which completely surrounded the Purkinje cell spines. These spines retained their usual appearance including the usual thickening of the post synaptic membrane. Implications of these findings are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235446

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Tactile discrimination study of the dorsal column-medial lemniscal system and spino-cervico-thalamic tract in cat (1968)

Kitai, S. T. ; Weinberg, J.

Springer

Experimental brain research 6 (1968), S. 234-246

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ISSN: 1432-1106

Keywords: Tactile discrimination ; Dorsal column-medial lemniscus ; Spino-cervico-thalamic tract ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The role of two spinal sensory pathways, the dorsal column (DC) pathway and the spino-cervico-thalamic tract (SCTT), involved in tactile discrimination was studied. Pour lesion groups of cats (DC lesion, SCTT lesion, combined DC and SCTT lesion, and sham-operated) were tested to discriminate various degrees of roughness. Animals with either the SCTT or the combined lesions performed at around 50–60% level under all the conditions tested. On the other hand, those with the DC lesion and sham-operations generally attained 80–100% level of performance. A difference between the DC group and sham-operated group was found in their rate of learning and ability for finer discrimination. These results are interpreted as an indication that a duplicity in transmission of tactile sensation exists, the DC pathway being more specific than the SCTT.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235126

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Topographical investigations on the climbing fiber inputs from forelimb and hindlimb afferents to the cerebellar anterior lobe (1968)

Eccles, J. C. ; Provini, L. ; Strata, P. ; [et al.]

Springer

Experimental brain research 6 (1968), S. 195-215

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ISSN: 1432-1106

Keywords: Cerebellum ; Climbing fiber input ; Somatotopy of climbing fiber input

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Volleys in group I and II fibers of muscle nerves and group II fibers of cutaneous, joint and fascial nerves have evoked CF responses in the anterior lobe of the cerebellum. In the pars intermedia there is a fairly sharp somatotopic localization of the forelimb CF responses to the Vth lobule (Larsell) and the hindlimb to the IVth and IIIrd lobules. In the vermis there is much more admixture, with the hindlimb-evoked responses tending to dominate in the lateral vermis of the Vth lobule, and the forelimb more medially. In the IVth and IIIrd lobules forelimb responses were rare and were never large. In the medial vermis up to 1–1.7 mm from the midline there were no CF-evoked responses from the limb nerves. These distributions of CF-evoked responses are remarkably different from those reported by Oscarsson, and consideration is given to the factors responsible for this discrepancy. A more detailed examination was made of the CF-evoked responses from a large variety of hindlimb and forelimb nerves. Observations were made along many tracks usually arranged in a transverse plane, and it was found that between different recording sites along the same track or along adjacent tracks, there was a great deal of variation in the relative magnitudes of the CF-evoked responses from the different nerves. These distributions have an ill-defined patchy character so that at any focus there is opportunity for the most diverse kinds of piecemeal integration. These findings on the CF-input are considered in relationship to the mossy fiber input. It is pointed out that the pathways conveying CF-input to the cerebellum have a level of discriminative input adequate for the operation of fine control.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235124

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Mossy and climbing fibre organization on the anterior lobe of the cerebellum activated by forelimb and hindlimb areas of the sensorimotor cortex (1968)

Provini, L. ; Redman, S. ; Strata, P.

Springer

Experimental brain research 6 (1968), S. 216-233

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ISSN: 1432-1106

Keywords: Cerebellum ; Cerebrum ; Somatotopy

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Stimulation of forelimb and hindlimb areas of the sensorimotor cortex in the cat evokes in the lobus anterior of the cerebellum an early response at latency of 3–3.5 msec due to the mossy fibre input (MF) and a later response at latency of 13–16 msec due to the climbing fibre (CF) input. In the pars intermedia these two types of responses are organized in a somatotopic manner: the hindlimb area projects in lobuli HIV and HIII whereas the forelimb area projects to lobulus HV. In the vermis a somatotopic arrangement is less clear. Both forelimb and hindlimb areas of the sensorimotor cortex project to lobuli III, IV and V: on a maintained somatotopy in a caudo-rostral direction there is a tendency for the hindlimb area of the sensorimotor cortex to be well represented in a longitudinal strip close to the paravermal sulcus. This arrangement in the vermis is evident for the CF pathways, but more difficult to demonstrate for the MF pathways. The forelimb area of the sensorimotor cortex projects to those areas of the lobus anterior impinged upon by the forelimb nerves through both the MF and CF systems and the same holds true for the hindlimb area and the hindlimb nerves.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235125

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Analysis of electrical potentials evoked in the cerebellar anterior lobe by stimulation of hindlimb and forelimb nerves (1968)

Eccles, J. C. ; Provini, L. ; Strata, P. ; [et al.]

Springer

Experimental brain research 6 (1968), S. 171-194

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ISSN: 1432-1106

Keywords: Cerebellum ; Evoked responses ; Mossy fibers ; Climbing fibers

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Responses were evoked in the anterior lobe of the cerebellum by volleys in group I and II fibers of forelimb and hindlimb nerves — cutaneous, muscular, joint and fascial. These responses have been observed along microelectrode tracks that traverse the whole depth of the anterior lobe. These tracks have been identified in histological sections, and the recording sites along these tracks have been determined. It has been shown that there are many distinguishing features for the responses produced by the two types of afferent input to the cerebellum: climbing fibers and mossy fibers. The depth profiles are of particular importance in the differentiation of the CF and MF responses, and they correspond to those already determined for the exposed surface areas of the cerebellar cortex. As would be expected from the distribution of synapses by the CF fibers to the Purkinje cell dendrites, there is a maximum extracellular negativity deep in the molecular layer with sources superficial and deep thereto. In contrast, the mossy fiber input produces a powerful synaptic excitation in the granular layer, which is recorded there as a negative wave (N2). The mossy fiber input by sequential relay also produces a negative wave (N3) in the molecular layer. This wave is distinguished from the CF-evoked negative wave because it is not reversed in the fissura and the adjacent superficial molecular layer. An important distinguishing feature of the MF- and CF-evoked responses is that the latencies of the former are shorter by 6–12 msec for forelimb nerves and by 9–15 msec for hindlimb nerves. It is thus possible to measure the sizes of the MF and CF responses in the same traces. Another distinguishing feature is the failure of the CF responses with stimulus frequencies of 5–15/sec, whereas the MF-evoked potentials are well maintained above 15/sec. Also CF-evoked responses show much more size and latency variance than the MF-evoked responses, and often the facilitation of two or three volleys is required in order to evoke a stable CF response. By utilizing these various tests it is always possible to distinguish between the CF- and the MF-evoked responses recorded along the microelectrode tracks in the anterior lobe.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235123

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Ganglioside analyses of serial cryostat sections through Ammon's horn and cerebellar folia (1968)

Derry, D. M. ; Wolfe, L. S.

Springer

Experimental brain research 5 (1968), S. 32-44

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ISSN: 1432-1106

Keywords: Gangliosides ; Hippocampus ; Cerebellum ; Synapses ; Neuronal membranes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The distribution of gangliosides in serial cryostat sections of area CA2 of the ox hippocampus cut parallel to the ventricular surface and of a cerebellar folium cut parallel to the pial surfaces have been determined utilizing a fluorimetric method for analysis of N-acetylneuraminic acid. Wide differences in the ganglioside content, even in adjacent sections, were found within the various laminae, particularly in the molecular layers of the hippocampus and cerebellum. The variations in ganglioside concentrations largely disappeared when sections were cut so as to include all the laminae in one section. Average ganglioside concentrations per unit of dry weight were highest in the granular cell and molecular layers of the cerebellum, but in the hippocampus the highest values were obtained just below the stratum granulare of the fascia dentata. The results indicate that gangliosides are not uniformly distributed throughout the neuron but are concentrated in regions densely supplied with synaptic endings on both cell bodies and dendrites.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239903

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EEG frequency content related to regional blood flow of cerebral cortex in cat (1968)

Baldy-Moulinier, Michel ; Ingvar, David H.

Springer

Experimental brain research 5 (1968), S. 55-60

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ISSN: 1432-1106

Keywords: EEG frequency ; Regional cortical blood flow ; Isotope measurements ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The EEG frequency content in cats, anaesthetized by Nembutal and artificially ventilated, was altered by means of injections of either additional Nembutal or of Metrazol. The EEG in cerveau isolé preparations was also changed in the same way. The regional cortical blood flow was determined by means of the 85Krypton technique. A high correlation was found between the frequency content of the EEG, measured by means of manual frequency analysis, and the regional cortical blood flow. The cortical blood flow increased when the mean frequency increased, and vice versa. A similar correlation was found when the EEG mean frequency was changed by means of sensory stimulation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239905

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Elimination by hypoxia of cerebral blood flow autoregulation and EEG relationship (1968)

Freeman, James ; Ingvar, David H.

Springer

Experimental brain research 5 (1968), S. 61-71

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ISSN: 1432-1106

Keywords: EEG frequency ; Regional cortical blood flow ; Isotope measurements ; Effects of hypoxia ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. The relationship between cortical blood flow and the frequency content of the EEG was studied in a circumscribed area of the exposed cerebral cortex in cats under nitrous oxide-oxygen anaesthesia. Autoregulation of the cortical blood flow was also tested during step-changes of the arterial blood pressure. Observations were made before and after an episode of severe hypoxia. 2. An episode of systemic hypoxia disrupted the normal high correlation between cortical blood flow and EEG frequency content. In the post-hypoxic period cortical flows of up to about three times normal values were recorded together with brain swelling and a slow wave EEG. The hyperemia and swelling subsided during 1–2 h after the hypoxic episode, and were accompanied by partial or complete recovery of the EEG. In the post-hypoxic period a defective autoregulation of the cortical blood flow to changes in the systemic blood pressure was demonstrated. 3. The cerebral post-hypoxic state with hyperaemia, brain swelling, EEG depression, and loss of autoregulation of blood flow, is probably caused by an accumulation of anaerobic metabolites which lead to cerebral tissue acidosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239906

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The corticothalamic projection from the gyrus proreus and the medial wall of the rostral hemisphere in the cat an experimental study with silver impregnation methods (1968)

Rinvik, Eric

Springer

Experimental brain research 5 (1968), S. 129-152

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ISSN: 1432-1106

Keywords: Cerebral cortex ; Thalamus ; Cat ; Nauta

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The corticothalamic projections from the gyrus proreus and the medial wall of the rostral hemisphere have been studied in the cat with the silver method of Nauta. The gyrus proreus projects upon the following nuclei (for abbreviations, see list on page 133), ipsilateral R, VA, VM, VL, MD, Pc, CL, CM, Pf, VPM, VPMpc. VPI and to the contralateral principal nucleus of the trigeminal nerve. The medial wall of the rostral hemisphere projects bilaterally upon R, VA, VM, VL, MD, Pc, CL, CM, Pf, VPM, VPMpc, VPI, VPL, the dorsal column nuclei and the principal nucleus of the trigeminal nerve. The ipsilateral thalamic projection is more abundant than the contralateral. The latter appears to increase in amount as the lesion is placed successively more ventrally on the medial wall of the rostral hemisphere. Some degenerating fibers cross in the corpus callosum and descend in the contralateral internal capsule but the majority cross in the dorsal part of the anterior commissure and reach the medial aspect of the anterior limb of the contralateral internal capsule. A somatotopical organization of the medial wall of the rostral hemisphere has been demonstrated. The rostrocaudal part projects upon the ipsilateral VPL lateralis (VPLl) and nucleus cuneatus and the contralateral nucleus gracilis and VPL medialis (VPLm). The caudal part of this cortical area sends fibers bilaterally to VPM, VPMpc, and the principal nucleus of the trigeminal nerve. The intermediate part, which also includes agranular cortex on the medial wall, projects upon ispsilateral VPLm and nucleus gracilis and upon contralateral VPLl and nucleus cuneatus. — The fibers to the ventro-basal complex, dorsal column nuclei and the principal nucleus of the trigeminal nerve are rather thick. The corticofugal fibers to the other thalamic nuclei are quite thin. — The findings are discussed in light of relevant anatomical and physiological observations in the literature and special emphasis has been laid on reported observations on the “supplementary motor” area.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238702

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The corticothalamic projection from the second somatosensory cortical area in the cat an experimental study with silver impregnation methods (1968)

Rinvik, Eric

Springer

Experimental brain research 5 (1968), S. 153-172

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ISSN: 1432-1106

Keywords: SII ; Thalamus ; Cat ; Somatotopical localization

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The corticothalamic projection from the anterior ectosylvian gyrus in the cat has been studied with the silver impregnation method of Nauta. The second somatosensory cortical area (SII) projects upon the ipsilateral nucleus ventralis posterolateralis (VPL), nucleus ventralis posteromedialis (VPM), the posterior thalamic region (PO) and to a slight extent upon the reticular nucleus of the thalamus (R), the centrum medianum (CM), the parvocellular part of VPM (VPMpc) and the nucleus ventralis posterior inferior (VPI). A somatotopical arrangement in the projection upon the ventro-basal (VB) complex has been demonstrated and a topical arrangement in the corticothalamic fibers from SII to PO is also evident. The transitional area between SII and the second auditory cortex sends fibers mainly to the entire magnocellular part of the medial geniculate body (MGmc) and to a lesser degree to the principal division of this nucleus (MGp). The corticofugal fibers from SII follow various and rather complicated circuitous routes before they end in the different thalamic nuclei. The experimental findings are discussed in the light of recent anatomical and physiological observations. It is shown that zones B and C of SII which have been shown by Carreras and Andersson (1963) to possess a large number of place and modality specific neurons project upon the VB-complex. On the other hand, zone A which contains a majority of place and modality unspecific neurons sends its fibers exclusively to PO. Finally the problem of thalamocortical projections to SII is briefly discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238703

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Cerebellar-evoked disinhibition in dorsal deiters neurones (1968)

Ito, M. ; Kawai, N. ; Udo, M. ; [et al.]

Springer

Experimental brain research 6 (1968), S. 247-264

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ISSN: 1432-1106

Keywords: Deiters neurones ; Disinhibition ; Cerebellum ; Cats

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Following the stimulation of cerebellar cortex, a slow depolarization developed in the neurones which were impaled with microelectrodes in the dorsal portion of the nucleus of Deiters. Characteristically, it was produced bilaterally from a wide area of the culmen and, with double shock stimulation at brief intervals, showed a marked potentiation, often in association with a later depression. After repetitive stimulation of the cerebellar cortex the slow depolarization was prolonged for a period of many seconds. Even stimulation of the spinal cord caused similar depolarization. By intracellular injection of currents and ions, the depolarization was shown to be disinhibition, i. e., removal of background inhibition. Accordingly, it was confirmed that there was a steady production of IPSPs in dorsal Deiters neurones, which diminished during the phase of disinhibition. As the possible source of these background IPSPs, the Purkinje cell axons within the nucleus of Deiters were found to be discharging rhythmically at a rate of 20–90/sec, and in fact they were depressed very effectively after cerebellar stimulation. At the same time, volleys along Purkinje cell axons produced by a testing cerebellar stimulation also were diminished, indicating a depression in the excitability of Purkinje cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235127

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The corticopontine projection in the cat I. Demonstration of a somatotopically organized projection from the primary sensorimotor cortex (1968)

Brodal, Per

Springer

Experimental brain research 5 (1968), S. 210-234

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ISSN: 1432-1106

Keywords: Sensorimotor cortex ; Pontine nuclei ; Somatotopical localization ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Small lesions (in some cases bilateral) were made in the cerebral primary sensorimotor region in altogether 21 adult cats and the ensuing degeneration in the pontine nuclei was studied with the silver impregnation methods of Nauta and Glees. Using thermocoagulation it was possible to obtain lesions restricted entirely to particular cortical regions (for example the “hindlimb region” in the posterior sigmoid gyrus). The main results are as follows: 1. All parts of the primary sensorimotor region send fibres to the pontine nuclei. The projections from the posterior part of the posterior sigmoid gyrus and the posterior part of the coronal gyrus are relatively scanty. 2. The cortical “motor” area (the anterior sigmoid gyrus and the anterior part of the coronal gyrus) and the “sensory” area (the posterior sigmoid gyrus and the posterior part of the coronal gyrus) do not project to identical pontine regions, although both projections are organized in principally the same way. 3. The “motor” and “sensory” areas both project in a somatotopical manner onto two longitudinally oriented sharply delimited columns. In both projections one column is located medial and one lateral to the longitudinal fibre bundles of the corticospinal and corticobulbar tracts. Within the medial columns the “hindlimb” is represented ventrally with “face” most dorsally, within the lateral columns the “hindlimb” is located most caudally, with “forelimb” and “face” successively more rostrally. 4. The present results are in agreement with physiological observations on the cerebrocerebellar relations, but show that the pontine projection from the primary sensorimotor cortex is organized in a more complex manner than hitherto assumed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238665

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17

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Identification of synapses formed in the cerebellar cortex by purkinje axon collaterals: an electron microscope study (1968)

Hámori, J. ; Szentágothai, J.

Springer

Experimental brain research 5 (1968), S. 118-128

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ISSN: 1432-1106

Keywords: Cerebellum ; Cerebellar synaptology ; Purkinje axon collaterals

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Purkinje axon collaterals and their synaptic terminals can be identified on the basis of three criteria: (1) They are the only myelinated axons of local elements, hence any myelinated axon persisting in chronically isolated folium is a Purkinje axon or its collateral; (2) They are the only known transfolial axons, so that axons and synapses found in the state of secondary degeneration after lesions placed into neighbouring folia of the cerebellar cortex are Purkinje axon collaterals and synapses; (3) The peculiar axonal tubular systems described by Andres (1965) are specific for Purkinje axons and their synaptic endings, which offers an additional clue for their identification. Using these three criteria numerous synapses of Purkinje axon collateral endings have been identified on the large Golgi neurons, both cell bodies and principal dendrites, and on the bodies of basket neurons. No evidence of the termination of Purkinje axon collaterals on other Purkinje cells could be detected.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238701

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Nature of the cerebellar influences upon the red nucleus neurones (1968)

Toyama, K. ; Tsukahara, N. ; Udo, M.

Springer

Experimental brain research 4 (1968), S. 292-309

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ISSN: 1432-1106

Keywords: Red nucleus ; Cerebellum ; Disfacilitation ; Cats

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Large cells in the red nucleus of cats were impaled with glass microelectrodes. Under light Nembutal anesthesia it was found that stimulation of the cerebellar cortex produced hyperpolarization in their membrane. Unlike the inhibitory postsynaptic potentials, this hyperpolarization decreased when the membrane was depolarized by passage of currents through the microelectrode, and it increased during application of hyperpolarizing currents: Hence the hyperpolarization is presumed to be produced by removal of tonically impinging excitatory postsynaptic potentials, in the manner of “disfacilitation”. In accordance with the above view, spontaneously arising small EPSPs disappeared during the phase of the hyperpolarization. The source of tonic impingement of excitatory impulses onto the red nucleus was found in the interpositus nucleus. The cells in this nucleus were discharging impulses at frequencies of 50–100/sec which were suppressed after the cerebellar stimulation, presumably via Purkinje cell axons, a depression in the excitability of the interpositus neurones being revealed at the same time. Following the depression, the excitability and impulse discharges of the interpositus neurones were enhanced, and correspondingly there was a late depolarization in the red nucleus neurones. During stimulation of the inferior olive and even of the spinal cord, disfacilitation and late facilitation occurred similarly through the interpositus nucleus, though with longer latencies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235697

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The origin of cerebellar-induced inhibition of Deiters neurones III. Localization of the inhibitory zone (1968)

Ito, M. ; Kawai, N. ; Udo, M.

Springer

Experimental brain research 4 (1968), S. 310-320

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ISSN: 1432-1106

Keywords: Deiters neurones ; Cerebellum ; Inhibitory zone ; Cats

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary By recording intracellularly from Deiters neurones of cats, there was a survey of those cerebellar areas that, when stimulated, produced inhibitory postsynaptic potentials (IPSPs) monosynaptically in Deiters neurones. The monosynaptic inhibitory area expanded longitudinally mainly along the ipsilateral vermal cortex of the anterior lobe. The ipsilateral cortex of the posterior lobe was also effective in inhibiting Deiters neurones though less prominently than the anterior lobe. The inhibitory fibers could be stimulated in the white matter of the cerebellum, predominantly in the ipsilateral side at rostral regions of nuclei fastigii and interpositus. It was further shown that the monosynaptic inhibition from the anterior and posterior lobes occurs chiefly in the dorsal portion of Deiters nucleus. Since in both the cerebellum and Deiters nucleus the spatial pattern of distribution of the inhibitory fibers conforms to that of the corticovestibular fibers as histologically defined, the experimental findings are in accord with the hypothesis that the cerebellar Purkinje cells are inhibitory in nature.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235698

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Die aktivität von Einzelfasern des nervus opticus bei verschiedenen temperaturen (1968)

Heiss, Wolf-Dieter ; Heilig, Peter ; Hoyer, Jörg

Springer

Experimental brain research 4 (1968), S. 321-329

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ISSN: 1432-1106

Keywords: Temperature ; Interval histograms ; Optic nerve ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung In 13 Katzen wurde die Aktivität von 128 Einzelfasern des N. opticus bei Temperaturen zwischen 27 und 39° C abgeleitet und direkt einer Intervallanalyse zugeführt. Die Durchschnittsfrequenz sank mit abnehmender Temperatur von 56/sec bei 39–37° C auf 21/sec unter 29° C. Bei Temperaturen über 35° C wurden nur unimodale oder zweigipfelige Verteilungen mit gehäuften Mehrfachentladungen gefunden. Unter 35° C traten multimodale Intervallhistogramme und Übergangstypen auf, bei denen einer Verteilung mehrere Gipfel aufgesetzt erschienen. Unter 29° C wurden nur mehrgipfelige Verteilungen beobachtet. In der phasischen Reaktion der Neurone wurden mit der Temperaturabnahme Latenzen länger und Hemmungen stärker. Unter 30° C konnte der Reaktionstyp des Neurons oft nicht mehr erkannt werden. Das vermehrte Auftreten multimodaler Verteilungen bei niedrigen Temperaturen ließe sich durch Verminderung von Interaktionen in der Retina erklären. Die Anregung zu dieser Untersuchung wurde von Herrn Professor Dr. Hans Bornschein gegeben.

Notes: Summary The activity of 128 single fibers of the optic nerve was recorded in 13 cats at temperatures between 27 and 39° C. Nonsequential interval histograms were computed on line. Decreasing temperature diminished the mean frequency of the fiber activity from 56/sec at 37–39° C to 21/sec below 29° C. Above 35° C the histograms were unimodal or bimodal, the first peak caused by repetitive discharges. Below 35° C multimodal histograms appeared; in some distributions several peaks were superimposed. At temperatures below 29° C only multimodal distributions were obtained. The phasic response of the neurons to light showed an increase of latency and of inhibition according to the decrease of temperature. Often the type of the response of the neuron could not be recognized below 30° C. During hypothermia interactions in the retina may be reduced and this may explain why multimodal distributions occur more frequently.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235699

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Elektrophysiologische Untersuchung von peripheren, corticalen und thalamischen Verbindungen zu Neuronen der bulbären Trigeminuskerne der Katze (1968)

Hammer, B.

Springer

Pflügers Archiv 299 (1968), S. 261-284

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ISSN: 1432-2013

Keywords: Cat ; Electrophysiology ; Single Units ; Bulbar Trigeminal Nuclei ; Katze ; Elektrophysiologie ; Einzelneurone ; Bulbäre Trigeminuskerne

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung 1. Funktionelle Eigenschaften der excitatorischen Verbindungen von Cortex, Thalamus und Peripherie zu 438 Neuronen der bulbären Trigeminuskerne wurden untersucht. Es konnten Beziehungen zwischen den Latenzzeiten der Antworten auf ipsilaterale, periphere Einzelreize, contralaterale thalamische Einzel- und Serienreize (N. ventralis posteromedialis) und contralaterale corticale Einzel- und Serienreize (somatosensorisches Projektionsgebiet S I, S II) nachgewiesen werden. 2. Für die Gesamtheit der Neurone wurde mit zunehmender Latenzzeit der Entladung auf periphere Reize eine Zunahme der prozentualen Ansprechbarkeit und der Latenzzeit der Antwort auf zentrale Reize beobachtet. 3. Die Neurone, deren periphere, thalamische und corticale Antworten Reizfrequenzen von 50 Hz und mehr folgten, hatten im Mittel kürzere periphere Latenzzeiten als Neurone, die Reizfrequenzen von 50 Hz nicht folgten. 4. Bulbäre Neurone, die mit thalamischen Reizen antidrom erregt wurden (lemniscale Neurone), unterschieden sich im Mittel von den übrigen Neuronen durch kürzere Latenzzeiten für periphere und zentrale Reize. 5. Es wurden lemniscale Neurone beobachtet, die mit corticalen Reizen monosynaptisch erregt werden konnten. 6. Neurone mit kleinen peripheren rezeptiven Feldern hatten im Mittel kürzere Latenzzeiten auf periphere Reize als Neurone mit großen rezeptiven Feldern. 7. Die periphere Reizantwort von Neuronen konnte durch vorausgehende thalamische und corticale Reize gehemmt werden. Im Mittel wurde die Hemmung bei Neuronen mit Latenzzeiten auf periphere Reize häufiger beobachtet. 8. Mögliche Bahnen, die an der Übertragung thalamo-bulbärer Effekte beteiligt sind, wurden diskutiert und schematisch dargestellt. Die Ergebnisse wurden mit statistischen Methoden geprüft.

Notes: Summary 1. Functional properties of excitatory connections from cortex, thalamus and periphery to a total of 438 trigeminal bulbar neurons of the cat have been investigated extracellularly. For the sample considered, correlations between latency of response to ipsilateral electrical single stimuli, contralateral electrical thalamic single and serial stimuli (N. ventralis posteromedialis) and also contralateral electrical cortical single and serial stimuli (somatosensory areas S I, S II) were established. 2. With increasing peripheral latency of response, the percentage of neurons responding to central stimulation increased as well. 3. Neurons following thalamic, cortical or peripheral stimulation frequencies of 50 cps or more showed in the average shorter latencies of response compared with neurons that could not be driven with 50 cps stimulation. 4. Bulbar neurons antidromically invaded by stimulation of the thalamus showed shorter latencies to peripheral, thalamic and cortical stimuli compared with other neurons. 5. Lemniscal neurons that could be activated monosynaptically by cortical stimulation have been observed. 6. Neurons with a small peripheral receptive field had in the average a shorter latency to peripheral stimuli than neurons with a large receptive field. 7. Responses to peripheral stimuli could be inhibited by preceding thalamic and cortical stimuli. 8. Possible pathways that are involved in transmission of thalamo-bulbar effects have been discussed and schematically represented. 9. All results have been examined by means of statistical methods.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00362589

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Influence of microelectrophoretically applied acetylcholine on the responsiveness of hippocampal and lateral geniculate neurones (1968)

Steiner, Felix A.

Springer

Pflügers Archiv 303 (1968), S. 173-180

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ISSN: 1432-2013

Keywords: Hippocampus ; Corpus geniculatum laterale ; Katze ; Mikroelektrophorese ; Acetylcholin ; Hippocampus ; Lateral Geniculate Body ; Cat ; Microelectrophoresis ; Acetylcholine

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Summary 1. Hippocampal and lateral geniculate neurones in anaesthetized cats (Chloralose-Urethane) were examined with multibarrelled microelectrodes, testing their responsiveness to microelectrophoretic application of acetylcholine and photic stimulation. 2. In the ventral hippocampus and in the lateral geniculate body 60% of all neurones responded to acetylcholine. 3. Hippocampal neurones were activated with relatively short delay, often less than 1 sec. By contrast, lateral geniculate neurones responded with a latency period of 2–12 sec. The recovery time after acetylcholine-microelectrophoresis was found to be 10–20 sec in both regions. 4. The response of hippocampal and lateral geniculate neurones to photic stimulation was enhanced by local application of acetylcholine; even during phenobarbital depression the photic responses were restored by acetylcholinemicroelectrophoresis.

Notes: Zusammenfassung 1. Neurone im Gebiet des Hippocampus und des Corpus geniculatum laterale der mit Chloralose-Urethan narkotisierten Katze wurden mit mehrkanüligen Mikroelektroden auf ihre Ansprechbarkeit auf mikroelektrophoretisch appliziertes Acetylcholin und auf optische Reizung untersucht. 2. Im ventralen Hippocampus und im Corpus geniculatum laterale wurden 60% aller untersuchten Neurone durch Acetylcholin aktiviert. 3. Die Neurone des Hippocampus wurden nach relative kurzer Latenz, oft weniger als 1 sec, aktiviert. Neurone des Corpus geniculatum laterale dagegen zeigten eine Latenz von 2–12 sec. Die Zeit nach der Mikroelektrophorese bis zur Wiedererreichung der normalen Aktivität betrug 10–20 sec für beide Gebiete. 4. Die Acetylcholin-Mikroelektrophorese verstärkte die Reizantwort der Neurone des Hippocampus und des Corpus geniculatum laterale auf visuelle Reizung. Die nach Phenobarbital abgeschwächte Antwort auf visuelle Reizung wurde durch Acetylcholin-Mikroelektrophorese wieder verstärkt.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00592634

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Beziehungen zwischen Aktivität corticaler Neurone und EEG-Wellen im motorischen Cortex der Katze bei Hypoglykämie (1968)

Mergenhagen, D. ; Creutzfeldt, O. ; Neuweiler, G.

Springer

European archives of psychiatry and clinical neuroscience 211 (1968), S. 43-62

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ISSN: 1433-8491

Keywords: Neuronal activity ; EEG-cortex ; Hypoglycemia ; Cat ; Neuronale Aktivität ; EEG-Cortex ; Hypoglykämie ; Katze

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung 1. An Katzen wurden EEG-Veränderungen durch Hypoglykämie hervorgerufen und mit den Aktivitätsveränderungen corticaler Neurone verglichen, wie sie sich bei intracellulären und „quasi-intracellulären“ Ableitungen darstellen. Es zeigte sich, daß pathologische EEG-Veränderungen erst bei niedrigen Blutzuckerwerten (zwischen 30 und 25 mg-%) auftreten und daß es erst bei Werten unter 10–15 mg-% zur elektrischen Stille kommt. 2. Während des flachen, desynchronisierten EEG des wachen Hirns vor Hypoglykämie lassen sich keine Beziehungen zwischen den kleinen EEG- und statistisch verteilten Zellpotentialen nachweisen. — Während der regelmäßigen 8–10/sec- Spindelgruppen, die bei tiefer Hypoglykämie häufig zu beobachten sind, findet sich eine enge Korrelation zwischen den einzelnen Oberflächen-negativen Spindelwellen und Zelldepolarisationen, die meist unterschwellig sind. 3. Bei den langsamen Wellen der δ-Frequenz finden sich ähnliche, aber weniger enge Korrelationen für die flachen, „monomorphen“ δ-Wellen. Andere Formen von langsamen Potentialkomplexen des Cortiocogramms, die im Tintenschreiber als „polymorphe“ δ-Wellen imponieren können, zeigen etwas andere, aber für den einzelnen Wellenkomplex jeweils konstante Beziehungen zur Zellaktivität. 4. Die steilen Wellen wurden unterteilt in primär positive und in primär negative bi- (oder auch tri-)phasische Potentiale. Die primäre Phase der primär-positiven steilen Potentiale ist im Durchschnitt kürzer (unter 20–40 msec) als die negative Phase der primär-negativen Phase (über 100 msec). Die meist überschwellige Zelldepolarisation, die in der Regel zu einer kurzen Gruppenentladung führt, fällt mit der primären Phase, also entweder der positiven oder der negativen zusammen. Die Phasenkoppelung, d. h. die „Synchronisation“ mit dem EEG-Potential, ist jedoch im Fall der primär-positiven Phase enger und die Dauer der Depolarisation kürzer als im Fall der primär-negativen steilen Potentiale. Diese Befunde werden als Hinweis auf eine stärkere Synchronisation der Aktivität der corticalen Nervenzellpopulation im Fall der primär-positiven steilen Potentiale gewertet. 5. Die verschieden engen Phasenkoppelungen und die je nach Steilheit der Wellen wechselnden Phasenbeziehungen zwischen Zellaktivierung und oberflächennegativen resp. -positiven Potentialen werden an Hand eines einfachen Modells der Elektrogenese von EEG-Potentialen erklärt, das den Synchronisationsgrad cortico-petaler und cortico-fugaler Faseraktivität sowie die Summation postsynaptischer Potentiale corticaler Neurone berücksichtigt.

Notes: Summary 1. The EEG, recorded monopolarly from the pial surface, was investigated during insuline induced hypoglycemia in acute cats and compared with the activity of cortical cells recorded with intra or “quasi-intracellular” electrodes. 2. Pathological changes of the EEG were observed only when the blood glucose fell below 25–30 mg-%. Electrical silence was observed at blood glucose levels below 15–10 mg-%. 3. The essentially flat, “desynchronized” EEG of the awake animal before hypoglycemia did not show any relation between the small, irregular fast EEG- potentials and the statistically distributed cellular potentials. —During the regular 8–10/sec spindles (Fig. 3) a close correlation was found between the single surface- negative spindle waves and the mostly subthreshold compound cellular EPSP's. 4. Slow waves of δ-frequency showed similar but less close correlations, if the waves were of regular appearance comparable to “monomorphic” δ-waves (Fig.4A). Other forms of slow complex potentials (Fig.4B and C), which correspond to “polymorphic” δ-waves in an EEG-record (e.g. Fig.4C and Fig.2d) may show different relations between cellular and EEG-activity which were, however, consistent for each type of complex wave. 5. Sharp waves were divided into primary positive and primary negative bi- (or tri-)phasic potentials. The primary positive phase was always shorter (below 20–40 msec) than the primary negative phase (above 100 msec). The mostly suprathreshold cellular depolarization, which may lead to a short burst of discharge, coincided with the primary, i.e. either the primary positive or the primary negative phase (Fig. 7 shows records from the same cell and different EEG-phenomena). The phase coupling, i.e. the “synchronization” with the EEG-potential, is closer in the primary positive than the primary negative waves, and the duration of the cellular depolarization is also shorter in the former case (compare Fig.7B I–III with 7B IV). This can be interpreted as stronger synchronization of cellular activity during the short primary positive waves. 6. A causal relation between cortical neuronal activity and EEG-potentials is assumed. Differences in the closeness of phase coupling and the changing phase relation between cellular and EEG-activity according to the form and steepness of cortical EEG-potentials are explained by a simple model of electrogenesis of EEG-potentials, which takes in account the degree of synchronization of corticopetal and cortico-fugal fibre activity as well as the summation of postsynaptic potentials of cortical neurones.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00341671

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Schlaf-EEG und Epilepsie bei Katzen mit chronischen epileptogenen Hirnläsionen (1968)

Dolce, G. ; Blümler, D. ; Fromm, H.

Springer

European archives of psychiatry and clinical neuroscience 211 (1968), S. 155-169

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ISSN: 1433-8491

Keywords: Sleep EEG ; Experimental Epilepsy ; Cat ; Schlaf-EEG ; Experimentelle Epilepsie ; Katze

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Die Frage der Wacho- der Schlaf-Aktivierung der fokalen Epilepsien wird bei 20 epileptischen Katzen im chronischen Experiment untersucht (Kopeloff-Methode). Die Narben wurden im Nucleus amygdaloideus (Pars basolateralis), Hippocampus dorsalis, Formatio reticularis mesencephali, Isocortex gesetzt. Bei einer Untersuchungsdauer der einzelnen Tiere zwischen 3 und 60 Tagen, wurden insgesamt 442 Std in Polygraphie (EEG, EMG, Augenbewegungen) abgeleitet. Die Tiere zeigten innerhalb der ersten 7 Tage Krampfpotentiale im EEG und die meisten ab der 2. Woche Krampfanfälle. Bei Katzen mit subcorticalen Narben war keine Veränderung der Dauer, der Verteilung und der Organisation der einzelnen Schlafstadien nachweisbar. Die im Ruhe-EEG vorhandenen Paroxysmen wurden während des langsamen Schlafes nicht aktiviert und fokalisiert. Im paradoxen Schlaf waren die Krampfpotentiale völlig desaktiviert, es traten einzelne Spindeln auf. Die Tiere mit Narben im Isocortex zeigten im langsamen Schlaf seltene Paroxysmen. Während der häufigeren kurzen Phasen des paradoxen Schlafes war eine Fokalisierung der Spitzen im Bereich der Läsion nachweisbar, jedoch, keine Aktivierung. Bei allen Tieren war die ausgeprägteste Aktivierung der Krampfbereitschft stets in dem von uns als „Wach mit motorischer Inaktivität“ bezeichnete Phase zu bemerken. Daher wird angenommen, daß dieser Zustand bei der Katze mit dem Einschlafstadium des Menschen vergleichbar ist.

Notes: Summary The activation of focal epileptic activities during wakefulness, slow and REM sleep was studied in chronic experiments in 20 epileptic cats (Kopeloff's method). The lesions were produced in the nucleus amygdaloideus (pars basolateralis), hippocampus dorsalis, formatio reticularis mesencephali and in the isocortex. Each animal was observed from between 3 to 60 days and a total of 442 hours of polygraphy (E.E.G., E.M.G, Eye movements) were recorded. Within the first 7 days all animals showed E.E.G paroxysms and most of them showed seizures from the beginning of the second week. In those cats with subcortical lesions there was no change detected in the duration, distribution and organisation of the different sleep phases. The paroxysmal E.E.G activity seen in the wakeful animal were not activated or focalised during slow-wave sleep; in REM sleep the paroxysms disappeared completely, only a few spindles were seen. Animals with lesions in the isocortex rarely showed paroxysms during the slow wave sleep. However, during REM sleep a clear focalisation was seen, although there was no additional activation in the area of the lesion. In all animals the most significant of the paroxysms was seen during a state which we should like to describe as; “Awake without any motor activity”. It is assumed that this state corresponds to the state of falling asleep in man.

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URL: http://dx.doi.org/10.1007/BF00344411

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The profiles of physiological events produced by a parallel fibre volley in the cerebellar cortex (1966)

Eccles, J. C. ; Sasaki, K. ; Strata, P.

Springer

Experimental brain research 2 (1966), S. 18-34

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ISSN: 1432-1106

Keywords: Cerebellum ; Parallel fibres ; Basket cells ; Purkinje cells

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Stimulation through concentric electrodes on the surface of a wide cerebellar folium was employed to set up a parallel fibre volley or beam. Serial recording of the field potential was made over a range of depths along microelectrode tracks arranged in a transverse plane across the folium in order to discover the action on Purkinje cells, both those that were on-beam for the parallel fibre volley and those at various distances off-beam. A juxta-fastigial electrode was carefully placed so that an applied stimulus could excite the axons of Purkinje cells distributed across the folium under investigation, the antidromic propagation of impulses thus obtained being utilized to test the effect of parallel fibre volleys upon Purkinje cells. 2. The observations were in accord with the two actions that a parallel fibre volley would be expected to exert on Purkinje cells: a direct excitatory action by the synapses made by parallel fibres with the spines of the Purkinje cell dendrites; an inhibitory action mediated by the stellate and basket cells that themselves are directly excited by the parallel fibre volley. 3. The excitatory synaptic action would result in the two types of responses that were restricted to the narrow zone and superficial location of the parallel fibre volley: active sinks formed by this excitatory synaptic action on the superficial dendrites of Purkinje cells would account for the observed depth profile of extra-cellular slow potentials, a superficial negative wave reversing to a deeper positive wave formed by passive sources on deeper dendrites; superficial synaptic excitation would also account for the facilitation of the propagation of antidromic impulses into the superficial dendrites. 4. The inhibitory synaptic action would result in the two types of responses that were widely dispersed transversely and in depth, far beyond the traject of the parallel fibre volley: a slow positive potential wave with a maximum at a depth usually of 300–400 μ; an inhibitory action on the antidromic invasion of Purkinje cells. The transverse profiles of these two presumed indices of inhibitory action on Purkinje cells apparently revealed that a basket cell may give inhibitory synapses up to 1000 μ laterally from the location of its soma and dendrites. 5. A description is given of the variants in the transverse profiles of the deeper positive waves and of inhibitory actions of a parallel fibre volley that presumably are mediated by basket cells and also by the superficial stellate cells. These physiological findings are correlated with the histologically determined distribution of synapses from a basket cell onto Purkinje cells.

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URL: http://dx.doi.org/10.1007/BF00234358

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Mode of activation of hippocampal pyramidal cells by excitatory synapses on dendrites (1966)

Andersen, P. ; Lømo, T.

Springer

Experimental brain research 2 (1966), S. 247-260

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ISSN: 1432-1106

Keywords: Synaptic excitation ; Hippocampus ; Pyramidal cells ; Dendritic activation ; Cat ; Rabbit

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Following selective activation of four afferent paths that terminate exclusively on dendrites, only a small proportion of pyramidal cells in the hippocampal fields CA1 and CA3 discharged impulses. Following a single afferent volley, an EPSP was never observed even in cells synaptically excited. On tetanic stimulation (about 10/sec), a large EPSP developed, but this was not a prerequisite for an action potential. Studies of the extracellular field potentials corresponding to the EPSP and the population spike potential, indicated that the EPSP was generated across the dendritic membrane and that the spike was initiated in the neighbouring part of the dendritic tree, propagating from there along the thicker dendrites towards the soma. This conduction had an average velocity of 0.4m/sec, and, presumably, a relatively low safety factor. In certain cases, the intrasomatic electrode recorded small all-or-nothing spikes which presumably were generated in the dendritic tree. These small spikes (D-spikes) invaded the soma only if assisted by some additional depolarization, for example by frequency potentiation of excitatory synapses. The results indicate two functional types of pyramidal dendrites, the conducting and the synaptic type.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236716

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The inhibitory interneurones within the cerebellar cortex (1966)

Eccles, J. C. ; Llinás, R. ; Sasaki, K.

Springer

Experimental brain research 1 (1966), S. 1-16

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ISSN: 1432-1106

Keywords: Inhibitory interneurones ; Cerebellum ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Extracellular microelectrode recording has been employed to study the responses of three types of interneurones in the cat cerebellar cortex: basket cells, superficial stellate cells and Golgi cells. The large unitary spike potentials of single cells were sharply localized and presumably were generated by impulse discharges from the cell somata. The characteristics of their responses described below sharply distinguished them from Purkinje cells. 2. The parallel fibre volleys generated by surface stimulation of a folium evoked brief repetitive discharges that were graded in respect of frequency and number. Maximum responses had as many as 10 impulses at an initial frequency of 500/sec. 3. At brief test intervals there was facilitation of the response to a second parallel fibre volley; at about 50 msec it passed over to depression for over 500 msec. 4. Stimulation deep in the cerebellum in the region of the fastigial nucleus (juxta-fastigial, J.F.) evoked by synaptic action a single or double discharge, presumably by the mossy fibre-granule cell-parallel fibre path, but climbing fibre stimulation from the inferior olive also usually had a weak excitatory action evoking never more than one impulse. 5. J.F. stimulation also had an inhibitory action on the repetitive discharge evoked by a parallel fibre volley. Possibly this is due to the inhibitory action of impulses in Purkinje cell axon collaterals. 6. There was a slow (7–30/sec) and rather irregular background discharge from all interneurones. The inhibitory actions of parallel fibre and J.F. stimulation silenced this discharge for some hundreds of milliseconds, probably by Golgi cell inhibition of a background mossy fibre input into granule cells. 7. All these various features were displayed by cells at depths from 180 to 500 μ; hence it was concluded that superficial stellate, basket and Golgi cells have similar properties, discrimination being possible only by depth, the respective depth ranges being superficial to 250μ, 250μ to 400μ, and deeper than 400μ.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235206

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Parallel fibre stimulation and the responses induced thereby in the Purkinje cells of the cerebellum (1966)

Eccles, J. C. ; Llinás, R. ; Sasaki, K.

Springer

Experimental brain research 1 (1966), S. 17-39

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ISSN: 1432-1106

Keywords: Parallel fibres ; Purkinje cells ; Cerebellum ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. When electrical stimuli were applied to the surface of a cerebellar folium by a local electrode (LOC), there was a propagated potential wave along the folium with a triphasic (positive-negative-positive) configuration. 2. Investigations by microelectrode recording established that this wave is produced by impulses propagating for at least 3 mm and at about 0.3 m/sec along a narrow superficial band or “beam” of parallel fibres. As expected from this interpretation, there was an absolutely refractory period of less than 1 msec and impulse annihilation by collision. 3. Complications occurred from the potential wave forms resulting from the excitation of mossy fibres by spreading of the applied LOC stimulus. These complications have been eliminated by chronically deafferenting the cerebellum. 4. When recording within the beam of excited parallel fibres there was a slow negative wave of about 20 msec duration, and deep and lateral thereto, there was a slow positive wave of approximately the same time course. 5. These potential fields were expressed in serial profile plots and in potential contour diagrams and shown to be explicable by the excitatory and inhibitory synaptic action on Purkinje cells: excitatory depolarizing synapses of parallel fibre impulses on the dendrites; and hyperpolarizing inhibitory synapses of stellate and basket cells respectively on the dendrites and somata. The active excitatory synapses would be strictly on the parallel fibre beam and the inhibitory concentrated deep and lateral thereto, which is in conformity with the axonal distributions of those basket and stellate cells that would be excited by the parallel fibre beam. 6. Complex problems were involved in interpretation of slow potentials produced by a second LOC stimulus at brief stimulus intervals and up to 50 msec: there was a potentiation of the slow negative wave, and often depression of the positive wave deep and lateral to the excited beam of parallel fibres. 7. Often the LOC stimulus evoked impulse discharge from the Purkinje cells, these discharges being inhibited by a preceding LOC stimulus.

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URL: http://dx.doi.org/10.1007/BF00235207

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Spontane postsynaptische potentiale von nervenzellen des motorischen cortex der katze (1966)

Watanabe, S. ; Creutzfeldt, O. D.

Springer

Experimental brain research 1 (1966), S. 48-64

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ISSN: 1432-1106

Keywords: Spontaneous post-synaptic potentials (EPSPs, IPSPs) ; Motor cortex ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung 1. Im motorischen Cortex von ausgewachsenen Katzen (mittlere Nembutalnarkose) wurden spontane postsynaptische Potentiale (PSP) mit intrazellulären Mikroelektroden untersucht. Die spontanen EPSP wurden mit ausgelösten EPSP nach schwachen Reizen in spezifischen (VL) und unspezifischen (CM) Thalamuskernen verglichen. 2. Spontane EPSP treten entweder einzeln oder gruppiert auf. spontane IPSP sind seltener und machen nur 3–10% aller spontanen PSP aus. Die kleinsten EPSP haben eine Amplitude von 150–200 μV, daneben kommen kleinere, flache Schwankungen des Membranpotentials vor. Die mittlere Amplitude von spontanen EPSP liegt bei 0.7 mV. Amplitudenhistogramme spontaner EPSP unterscheiden sich nicht wesentlich von solchen, die durch schwache CM- oder VL-Reize ausgelöst sind. 3. Die Anstiegssteilheit von spontanen EPSP liegt zwischen 2 und 15 msec. Es besteht keine konstante Beziehung zwischen Amplitude und Anstiegssteilheit. Der Potentialabfall ist annähernd exponentiell, die Zeitkonstante liegt zwischen 8 und 12 msec und ist damit etwas länger als die passive Neuronzeitkonstante (8.5±2.2 msec nach Creutzfeldt u. Mitarb., 1964b). Es bestehen keine konstanten Unterschiede der Zeitverläufe von spontanen, durch VL- oder CM-Reiz ausgelösten EPSP-Einheiten. 4. Die Intervallhistogramme von spontanen EPSP sind verschieden je nach dem, ob alle Intervalle oder nur Perioden mit sporadischer, nicht-gruppierter Aktivität ausgezählt werden. Nicht gruppierte EPSP haben längere mittlere Intervalle (70–80 msec). 5. Nach überschwelligen Thalamusreizserien ist sowohl die spontane als auch die reizinduzierte PSP-aktivität vermindert. Es kann jedoch nicht entschieden werden, inwieweit corticale und inwieweit thalamische Mechanismen für diese post-tetanische Depression verantwortlich sind. 6. Während reversibler Deafferentierung des Cortex durch K+-depolarisation afferenter Fasern und im chronisch isolierten Cortex finden sich keine spontanen PSP mehr, obwohl EPSP und IPSP am isolierten Cortex durch epicorticale Reize noch ausgelöst werden können. 7. Aus den Befunden wird geschlossen, daß die beobachteten PSP durch afferente und collaterale Faseraktivität ausgelöst sind. Für echte „Miniaturpotentiale” entsprechend Beobachtungen an Muskelendplatten findet sich kein Anhalt. Insofern repräsentiert das „synaptische Rauschen” corticaler Zellen die konvergierende Afferenz dieser Zellen und kann nicht als echtes „spontanes Rauschen” angesehen werden.

Notes: Summary Spontaneous post-synaptic potentials (PSP's) of neurones of the motor cortex are analysed (intracellular recording, Nembutal anesthesia, cats). Distinct EPSP's either appear grouped or more sporadically distributed. Spontaneous EPSP's only represent about 3–10% of all spontaneous PSP's. The mean amplitude of EPSP's is about 0.7 mV. The smallest EPSP's have an amplitude of 150–200 μV, smaller slow fluctuations of the membrane potential (MP) are seen occasionally. Amplitude histograms of spontaneous EPSP's are similar to those of evoked EPSP units following weak thalamic stimulation. — The rising time of spontaneous EPSP's varies between 2 and 15 msec. and is not correlated with the peak amplitude. The decay is almost exponential, the time constant is between 8 and 12msec., thus being slightly higher than the neurone time constant of cortical pyramidal cells (8.5±2.2 msec. Creutzfeldt et al., 1964b). No consistant differences in time course and amplitude of “EPSP units” after VL and CM thalamic stimulation and of spontaneous EPSP's was found. Cortical and thalamic components of post-tetanic depression of spontaneous and evoked PSP activity cannot be distinguished. Interval histograms are different whether all EPSP's during sporadic and grouped activity or whether only sporadically appearing EPSP's are counted. Non-grouped EPSP's show longer mean intervals (between 70 and 80 msec.). — During reversible deafferentation with K+-depolarization of afferent fibers and in the chronically isolated cortex no spontaneous EPSP's or IPSP's are found eventhough membrane fluctuations of cells in the latter preparation may sometimes be difficult to distinguish from real EPSP's. In the chronically isolated cortex, EPSP's and IPSP's can still be elicited by epicortical stimulation. — From these findings it is concluded that the observed spontaneous PSP's represent “unit” EPSP's and IPSP's due to afferent and collateral fiber activity and that no true miniature potentials due to spontaneous liberation of transmitter substance can be recorded. Thus, the “synaptic noise” of cortical neurones represents convergent activity on these cells and consequently cannot be considered as true “spontaneous noise”.

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URL: http://dx.doi.org/10.1007/BF00235209

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Identification under the electron microscope of climbing fibers and their synaptic contacts (1966)

Hámori, J. ; Szentágothai, J.

Springer

Experimental brain research 1 (1966), S. 65-81

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ISSN: 1432-1106

Keywords: Cerebellum ; Cerebellar synaptology ; Climbing fibers ; synapses

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary An attempt is made to identify, under the electron microscope, the climbing fibers of the cerebellum (in the cat) and their synaptic contacts with Purkinje cells and other cortical neurons. — Two kinds of axonal profiles, having synaptic contacts with primary and secondary dendrites of Purkinje neurons, can be recognized: One being terminal fibers densely packed with neurofilaments, having mainly contacts “de passage” with the dendrite surface, with small accumulations of synaptic vesicles at the presynaptic side of the contact. The others are rather knob-shaped contacts filled with synaptic vesicles and poor in neurofilaments. In chronically isolated folia, in which only local neurons and their processes have survived, all filamentous profiles have disappeared while vesicular ones are not appreciably reduced in number. It is inferred from this, that the neurofilamentous profiles correspond to climbing fibers, whereas the vesicular ones could be the endings of outer stellate axons, recurrent Purkinje axon collaterals, or ascending basket axon collaterals. — Similar two kinds of axon-terminal profiles are found in synaptic contact with Golgi and basket cell bodies. As in chronically isolated folia only the vesicular profiles survive, it is inferred that the climbing fiber has axo-somatic terminals on Golgi cells and basket cells as well. Previous information of this kind, gained with the light microscope and with degeneration studies, is thus substantiated with the aid of the electron microscope. The vesicular presynaptic profiles on Golgi and basket neurons are in the first case certainly and in the second with high probability endings of recurrent Purkinje axon collaterals. — The few axosomatic synapses found on outer stellate neurons may also be terminals of climbing fibers, but degeneration evidence for this is not conclusive. — The observations are summarized and evaluated from the functional point of view in a diagram, with consideration to recent physiological information on the function of climbing fibers.

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URL: http://dx.doi.org/10.1007/BF00235210

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The mossy fibre-granule cell relay of the cerebellum and its inhibitory control by Golgi cells (1966)

Eccles, J. C. ; Llinás, R. ; Sasaki, K.

Springer

Experimental brain research 1 (1966), S. 82-101

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ISSN: 1432-1106

Keywords: Cerebellum ; Mossy fibre input ; olgi cell inhibition

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. The glomerulus in the cerebellar granular layer is composed of the three elements; the mossy fibre terminal, the granule cell dendrites and the Golgi cell axons. The afferent input to the cerebellar cortex through the glomerulus, the mossy fibre-granule cell relay (M.G.R.), and its inhibitory control by the Golgi cells were studied by recording, a) extracellular field potentials in the granular and molecular layers, b) unitary spikes of granule cells, and c) intracellular postsynaptic potentials in Purkinje cells. 2. Mossy fibres were activated by juxta-fastigial, transfolial, lateral cuneate nucleus and radial nerve stimulation. Stimulation of an adjacent folium (transfolial stimulation) could excite branches of mossy fibres under the stimulating electrode which supply other branches also to the folium under the recording electrode. This technique was utilized to distinguish the response due to mossy fibre activation from those due to the climbing fibre and Purkinje cell axons. 3. These stimulations resulted in, through the M.G.R., a powerful activation of granule cells whose axons (parallel fibres) excited in turn the Purkinje cells and the inhibitory interneurones, including the Golgi cells, in the molecular layer. 4. Field potentials and unitary spikes due to granule cell activity elicited by the stimulation of mossy fibres were markedly depressed for hundreds of milliseconds after the direct stimulation of parallel fibres (LOC stimulation). The postsynaptic potential in Purkinje cells evoked by mossy fibre activation was also depressed by the conditioning LOC stimulation in the same manner. The “spontaneous” background activities recorded from granule cells as unitary spikes and from Purkinje cells as inhibitory synaptic noise were silenced for hundreds of milliseconds after the LOC stimulation. 5. These depressions indicate that the parallel fibre activation evokes an inhibitory action upon M.G.R. On anatomical grounds this inhibition can be mediated only by the Golgi cell, and it is postulated that the inhibitory action is postsynaptic upon the dendrites of granule cells. 6. It is concluded that the Golgi cell inhibition regulates the mossy fibre input to the cerebellar cortex at the M.G.R. by a form of negative feed-back.

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URL: http://dx.doi.org/10.1007/BF00235211

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Intracellularly recorded responses of the cerebellar Purkinje cells (1966)

Eccles, J. C. ; Llinás, R. ; Sasaki, K.

Springer

Experimental brain research 1 (1966), S. 161-183

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ISSN: 1432-1106

Keywords: Cerebellum ; Purkinje cells ; Intracellular recording ; Postsynaptic potentials

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Intracellular recording from Purkinje cells has been employed in investigating the excitatory and inhibitory synaptic action that is exerted on these cells by the mossy fibre input into the cerebellum. 2. These synaptic actions are evoked not directly by the mossy fibres, but probably always through granule cells and their axons, the parallel fibres. The intracellular records conform with the anatomical evidence that the parallel fibres directly exert a powerful synaptic excitatory action on Purkinje cells, and that the inhibitory pathway occurs via an inhibitory interneurone — a basket cell or a stellate cell. Direct stimulation of parallel fibres gives intracellular potentials closely resembling those produced by deep stimulation of mossy fibres. 3. As would be expected, direct stimulation of parallel fibres produces an EPSP with a latency 1 to 2 msec briefer than the IPSP. The IPSP has a duration usually in excess of 100 msec. The EPSP appears to be briefer, though its superposition on the IPSP greatly reduces its apparent duration. Neutralization of the IPSP by appropriate membrane polarization or by intracellular chloride injection reveals an EPSP duration of up to 50 msec. 4. The IPSP is typically affected by polarizing currents; reduced and even inverted by hyperpolarizing currents, and increased by depolarizing currents. The IPSP is converted to a depolarizing response by excess of intracellular chloride. It must therefore be generated by an increased ionic permeability of the inhibitory subsynaptic membrane, chloride ions being importantly concerned. 5. Often small irregular IPSPs can be observed occurring spontaneously, and they react to polarizing currents and to chloride injections in a manner identical to the evoked IPSPs. It is concluded that they are generated by the spontaneous discharges of basket cells. 6. A brief account is given of various spontaneous rhythmic responses of impaled Purkinje cells, and of the effect of synaptic inhibitory action upon them. 7. There is a general discussion of these findings in relation to the various neural pathways and neural mechanisms that have been postulated in the light of the preceding investigations.

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URL: http://dx.doi.org/10.1007/BF00236869

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Functional organization of the spinoreticulocerebellar path with identification of its spinal component (1966)

Grant, G. ; Oscarsson, O. ; Rosén, I.

Springer

Experimental brain research 1 (1966), S. 306-319

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ISSN: 1432-1106

Keywords: Lateral reticular nucleus ; Reticulocerebellar tract ; Spinoreticular tract ; Cerebellum ; Flexor reflex afferents

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Mass discharges were recorded from the dissected left restiform body in unanaesthetized, decerebrate, and decerebellate cats. The spinal cord was severed in the thoracic or cervical region sparing only the left ventral quadrant. In this preparation the discharges were shown to relate largely or exclusively to activity in the reticulocerebellar tract originating from the lateral reticular nucleus. The ascending spinal tract was identified with the bilateral ventral flexor reflex tract (bVFRT) of Lundberg and Oscarsson (1962). The reticulocerebellar tract was activated from the flexor reflex afferents and nerve volleys from each of the four limbs were equally effective. It is concluded that the lateral reticular nucleus is not responsible for the somatotopically organized projection of cutaneous afferents, as assumed before. The bVFRT is strongly influenced from the cerebellar cortex and the organization of the closed loop formed between the cortex and the spinal cord is discussed.

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URL: http://dx.doi.org/10.1007/BF00237703

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Response characteristics of retieulocerebellar neurones activated from spinal afferents (1966)

Oscarsson, O. ; Rosén, I.

Springer

Experimental brain research 1 (1966), S. 320-328

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ISSN: 1432-1106

Keywords: Lateral reticular nucleus ; Reticulocerebellar tract ; Spinoreticular tract ; Cerebellum ; Flexor reflex afferents

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The experiments were done on unanaesthetized, decerebrate, and decerebellate cats. Recording was made from axons originating in the lateral reticular nucleus on stimulation of various nerves, cutaneous receptors, and certain descending tracts. Excitatory and inhibitory effects were evoked from the flexor reflex afferents of receptive fields which included most of the body surface. It is concluded that the lateral reticular nucleus with respect to its afferent inflow is similar to the non-cerebellar nuclei of the reticular formation. The possibility that the reticulocerebellar tract is important in determining the background excitation of cortical neurones is discussed. The effects evoked by stimulation of descending tracts were consistent with the disclosure that the bilateral ventral flexor reflex tract is the afferent path to the lateral reticular nucleus.

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URL: http://dx.doi.org/10.1007/BF00237704

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Mass discharges evoked in the olivocerebellar tract on stimulation of muscle and skin nerves (1966)

Grant, G. ; Oscarsson, O.

Springer

Experimental brain research 1 (1966), S. 329-337

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ISSN: 1432-1106

Keywords: Inferior olive ; Olivocerebellar tract ; Spinoolivary tract ; Cerebellum ; Flexor reflex afferents

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The discharges were recorded from the dissected right restiform body in unanaesthetized, decerebrate, and decerebellate cats. The spinal cord was severed in the thoracic and/or cervical region sparing only the left ventral quadrant. The discharges were shown to relate largely or exclusively to activity in the olivocerebellar tract. The olivocerebellar discharges were elicited by stimulation of the flexor reflex afferents. Large responses were evoked from the right hindlimb nerves and small responses from the left hindlimb nerves. The responses had a latency of about 20 msec. The spinoolivary tract is tentatively identified with the contralateral ventral flexor reflex tract of Lundberg and Oscarsson (1962).

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URL: http://dx.doi.org/10.1007/BF00237705

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Somatotopical organization of the projection from the nucleus interpositus anterior of the cerebellum to the red nucleus. An experimental study in the cat with silver impregnation methods (1966)

Courville, Jacques

Springer

Experimental brain research 2 (1966), S. 191-215

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ISSN: 1432-1106

Keywords: Cerebellum ; Nucleus interpositus anterior ; Red nucleus ; Somatotopy ; Degeneration study

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Small lesions were done in various areas of the nucleus interpositus anterior (NIA) of the cerebellum, and the distribution of terminal degeneration was studied in the red nucleus with the methods of Nauta and Glees. The NIA projects to the contralateral red nucleus. Two principles of organization can be demonstrated in the projection: a caudorostral arrangement in the red nucleus corresponds to a mediolateral organization in the NIA and a mediolateral arrangement in the red nucleus corresponds to a caudorostral organization of the NIA. The latter distribution coincides with the somatotopical areas of the red nucleus defined by Pompeiano and Brodal (1957). Special attention has been paid to the questions of the subdivision of the cerebellar nuclei and of the course of the fibres issuing from the nuclei in the cerebellar hilus. The present findings on the projection of the NIA to the red nucleus have been correlated with recent anatomical and physiological data on the cerebellum and the red nucleus.

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URL: http://dx.doi.org/10.1007/BF00236713

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