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Interpretation of the potential fields generated in the cerebellar cortex by a mossy fibre volley (1967)

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

Springer

Experimental brain research 3 (1967), S. 58-80

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ISSN: 1432-1106

Keywords: Mossy fibres ; Cerebellar cortex ; Golgi cells ; Granule cells ; Purkinje cells

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Potential fields and unitary spikes in the cat cerebellar cortex were generated specifically by mossy fibre volleys and recorded by means of microelectrodes. The mossy fibres were excited by trans-folial (T. F.) stimulation which was compared with juxtafastigial (J.F.) stimulation. Both were conditioned by local stimuli of parallel fibres. 2. In the granular layer, an incoming mossy fibre volley evoked a small diphasic potential (P1 N1) and about 0.4 msec later a second negative wave (N2) due to the excitatory synaptic current generated by synapses of mossy fibres with granule cells and Golgi cells. In the typical configuration the N2 wave usually had a superimposed double spike potential, which is due to impulses discharged first by Golgi cells and then, about 0.5 msec later, by granule cells. 3. The transmission of impulses along the perpendicular axons of the granule cells and thence along the parallel fibres gave the fairly sharp positive potential (P2) in the granular layer, and simultaneously the negative wave (N3) in the molecular layer. The parallel fibre impulses, in turn, synaptically excited and so evoked local responses and action potentials in the dendrites of Purkinje and other cells, which aided in the production of the latter part of the N3 wave. 4. The impulses in the Purkinje cell dendrites propagate into the granular layer via the Purkinje cell somata and axons so producing the negative wave (N4) in the Purkinje and the granular layer. 5. The late and prolonged positive wave (P3) may be attributable to the deep active sources produced by postsynaptic inhibition of Purkinje cells and of granule cells by basket and Golgi cells respectively. 6. There has been good correlation between the physiological findings and the anatomical structures of the various types of cells and the synaptic connections, even to the synapses of mossy fibres on Golgi cell dendrites that have been recently described by HÁmori and SzentÁgothai.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234470

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A comparison of the inhibitory actions of Golgi cells and of basket cells (1967)

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

Springer

Experimental brain research 3 (1967), S. 81-94

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ISSN: 1432-1106

Keywords: Cerebellar inhibition ; Golgi cells ; Basket cells ; Purkinje cells ; Granule cells

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. There has been a comparative study of two kinds of inhibition in the cerebellar cortex: basket cell inhibition of Purkinje cells; and Golgi cell inhibition of granule cells. These inhibitory actions were assayed by the degree of inhibition of the potential waves that juxta-fastigial (J.F.) stimulation evoked in the granular or molecular layers: basket cell inhibition by the N1 wave generated by antidromic invasion of Purkinje cells; and Golgi cell inhibition of the N3 or P2 waves evoked by the mossy fibre volley in the molecular and granular layers respectively. 2. The Golgi cell inhibition produced by a parallel fibre volley (LOC stimulation) extended transversely for no more than 200 μ on either side of the narrow beam of the excited parallel fibres, whereas the spread of basket cell inhibition was much larger — to as far as 1 mm. 3. When activated by the on-beam LOC stimulation, the Golgi cell and the basket cell inhibition showed much the same threshold of the stimulation. The off-beam LOC stimulation produced only the basket cell inhibition which is in conformity with the different transverse distributions described in (2) above. 4. When evoked by J. F. or trans-folial (T. F.) stimulation, the Golgi cell inhibition had a much lower threshold than the basket cell inhibition. It is suggested that in part at least this is attributable to the direct synaptic connection from mossy fibres to Golgi cells. 5. The Golgi cell inhibition elicited by the LOC stimulation showed a relatively short time course, the maximum being attained by about 10 msec, after which there was an approximately exponential decrease so that the total duration was only about 100 msec. On the other hand, the basket cell inhibition had a much slower time course, maximum being attained at a latency of 20 to 40 msec, the total duration being even in excess of 200 msec. Suggestions are made with respect to the factors responsible for the slow time course of the basket cell inhibition.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234471

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Investigations on integration of mossy fiber inputs to Purkyně cells in the anterior lobe (1971)

Eccles, J. C. ; Faber, D. S. ; Murphy, J. T. ; [et al.]

Springer

Experimental brain research 13 (1971), S. 54-77

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ISSN: 1432-1106

Keywords: Cerebellum ; Purkyně cells ; Integration ; Topography

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The 275 Purkyně cells identified by the criteria of the previous paper have been investigated with respect to their role as units integrating the input to the anterior lobe from various limb nerves. The discharges from single Purkyně cells have been studied in lightly anesthetized (pentothal) or in decerebrate unanesthetized cats, there being averaging usually of 128 responses in the form of post-stimulus time histograms and cumulative frequency distributions. Single Purkyně cells exhibited a wide variation in their responses to the diverse inputs from the various afferent nerves. Attention was focussed on excitatory and inhibitory responses evoked by mossy fibers with a short latency, usually 10–15 msec for hindlimb afferents. With most Purkyně cells these responses were predominantly evoked from cutaneous nerves, low threshold fibers being particularly effective. A few Purkyně cells were preponderantly excited by afferent volleys from muscle nerves, but there was a large group with a mixed input from cutaneous and muscle nerves. Graded strengths of stimulation of muscle nerves showed that sometimes group I volleys were prepotent, but other Purkyně cells were selectively excited by group II volleys. Though sometimes the afferent volleys from antagonistic muscles had a reciprocal action on a Purkyně cell, as on a motoneurone, it was more common to find similar actions. Also convergence of inputs from forelimb and hindlirnb nerves, both cutaneous and muscular, was not uncommon, particularly in marginal areas between hindlimb and forelimb zones. A special design feature is the convergence onto a Purkyně cell of mossy fiber and climbing fiber inputs evoked by the same afferent volley. This convergence was of particular interest along the parasagittal strip of hindlimb climbing fiber distribution in lobule V. It was not possible to translate the observations into some map of the cerebellar cortex on which are marked the territorial distributions from the various limb afferent nerves. Rather, there was an ill-defined patchy character, closely adjacent Purkyně cells often receiving very different subsets of the total input from the various limb nerves. The unitary integrations accomplished by the individual Purkyně cells are further integrated when their axons converge onto and inhibit the neurones of the cerebellar nuclei, and this integration by convergence would occur in each successive relay on the output pathways from the cerebellum. It is pointed out that the experimental findings on the integrative action of the individual Purkyně cells provide basic information for attempts to construct models simulating cerebellar performance and control.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236430

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Somatoiopic studies on cerebellar fastigial cells (1974)

Eccles, J. C. ; Rantucci, T. ; Sabah, N. H. ; [et al.]

Springer

Experimental brain research 19 (1974), S. 100-118

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ISSN: 1432-1106

Keywords: Cerebellar nuclei ; Fastigial neurones ; Somatotopy ; Cerebellar function

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The somatotopic inputs into fastigial cells have been studied in relation to cutaneous mechanoreceptors of forelimb and hindlimb. Some fastigial cells were very discriminative, not only in respect of the limb, but also to restricted areas of hairy skin and related toe pads. Others were much less so, forelimb and hindlimb cutaneous receptors evoking similar excitatory-inhibitory responses. In addition, from the contralateral hindlimb, responses were evoked which were comparable with those from the ipsilateral limb. Somatotopic diagrams have been constructed which show in four experiments the sites of fastigial cells in the parasagittal plane of the microelectrode tracks. For each experiment four separate plottings give a comparison of the sizes of responses evoked for forelimb and hindlimb: excitation from nerve volleys; inhibition from nerve volleys; excitation from pad taps; inhibition from pad taps. In this way it is shown that fastigial cells with similar somatotopic relations often occur in clusters, particularly when assessed by their inhibitory responses. Since fastigial inhibition is largely due to Purkyně cells, there is an attempt to correlate the somatotopic relations of Purkyně cells with the somatotopy of fastigial cell inhibition. The excitation of fastigial cells exhibits less somatotopic discrimination, which conforms with the poor somatotopic discrimination of cells of the lateral reticular nucleus. In a final discussion there is consideration of two principal projections from the vermis of the anterior lobe: Purkyně cells inhibiting Deiters neur; Purkyně cells inhibiting fastigial cells which in turn monosynaptically excite Deiters neurones, the inhibition of Deiters neurones being then by disfacilitation. The degree of forelimb-hindlimb convergence in these pathways is reconsidered and is diagrammatically illustrated.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00233397

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Integration by Purkyně cells of mossy and climbing fiber inputs from cutaneous mechanoreceptors (1972)

Eccles, J. C. ; Sabah, N. H. ; Schmidt, R. F. ; [et al.]

Springer

Experimental brain research 15 (1972), S. 498-520

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ISSN: 1432-1106

Keywords: Cerebellum ; Cutaneous mechanoreceptors ; Mossy fibers ; Climbing fibers ; Integration ; Purkyně cell groups

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The preceding two papers gave accounts of mossy fiber (MF) or of climbing fiber (CF) inputs to Purkyně cells under conditions where the other input was depressed by the experimental procedure. By utilizing either chloralose anesthesia or decerebration with sparing of the pyramidal tracts it has been possible to study the convergence of MF and CF inputs onto single Purkyně cells. The stimulation of cutaneous mechanoreceptors, the recording procedures for unitary Purkyně cell discharges and the computer averaging techniques were as previously described. Testing by taps to the footpads evoked a combined MF and CF response more commonly than either response alone, and often both inputs were very effective. There was a tendency for such phasic CF responses to be more frequently observed than the tonic responses to pad pressure, but such responses did occur. Purkyně cells were located by the usual procedure along the microelectrode tracks later identified in serial sections. Those cells activated by the fast MF inputs from the pad receptors were found to be closely associated in groups or colonies. The delayed MF inputs probably via spino-reticular pathways were more widely dispersed. The topographical relationships of these colonies are displayed on maps of the unfolded cerebellar cortex for lobules II to VI of both vermis and pars intermedia. In general these distributions of Purkyně cells activated from forefoot and hindfoot appear as islands in the larger fields that degeneration procedures exhibit for the cuneocerebellar and dorsal spinocerebellar tracts respectively. The CF inputs from the footpads also project to these same colonies, so that there are conjoint MF and CF colonies. The several modalities of the cutaneous mechanoreceptors of the forefoot or hindfoot often participate in the receptive fields of individual Purkyně cells. Such a field may be restricted to one or other side of the foot, all tested cutaneous mechanoreceptors then sharing approximately in the same restriction. Finally it is shown how these experimental findings relate to the theories of cerebellar function, particularly to the dynamic loop hypothesis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236405

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Afferent volleys in limb nerves influencing impulse discharges in cerebellar cortex I. In mossy fibers and granule cells (1971)

Eccles, J. C. ; Faber, D. S. ; Murphy, J. T. ; [et al.]

Springer

Experimental brain research 13 (1971), S. 15-35

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ISSN: 1432-1106

Keywords: Cerebellum ; Mossy fibers ; Granule cells ; Afferent volleys

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary This paper is the first of a series in which the processing of information in the cerebellum has been studied by investigating the effects that known inputs from limb nerves produce on the unitary spike potentials in the cerebellar cortex. These spikes have been recorded extracellularly at all depths along microelectrode tracks in the 5th, 4th and 3rd lobules of the anterior lobe in the lateral vermis or in the pars intermedia. These units have a background frequency of discharge, often very irregular, and computer averaging techniques have been employed in order to derive reliable information on the time course and intensity of the excitatory and/or inhibitory actions produced by the input against this background. Most of the spike responses recorded from the granular layer fall into two classes, one characteristic of impulses in mossy fibers, and the other of impulse discharges from granule cells. Both in the spontaneous background and in the response to afferent volleys in limb nerves the mossy fibers exhibit a performance in close accord with that described for the discharges up the spino-cerebellar tracts. The short latency of 6–9 msec for hindlimb stimuli and the high frequency burst response of 2–4 impulses are characteristic. The mossy fibers displayed a wide variety of responses to the wide range of testing inputs, there being various combinations of excitatory and inhibitory responses and also delayed excitatory actions, all of which must be assumed to be reflections of synaptic influences on the cells of origin of the mossy fibers in the spinal cord. Granule cells have a longer latency by several milliseconds, 9–20 msec for the hindlimb, and a slower frequency in their burst response which tended to be longer and more irregular. The small unitary spike potentials are more difficult to isolate. Also with repetitive stimulation granule cells are more readily depressed than are mossy fibers. Usually a granule cell exhibits a wider range of response to the various cutaneous and muscular afferents of a limb. Both mossy fibers and granule cells may display reciprocal responses to volleys from muscle nerves to antagonistic muscles. This attempt to define properties of the mossy fiber and granule cell spike potentials should help in their identification in future investigations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236428

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