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1

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Cutaneous receptive fields of cerebellar Purkyně cells of unanesthetized cats (1977)

Hiss, E. ; Leicht, R. ; Schmidt, R. F.

Springer

Experimental brain research 27 (1977), S. 319-333

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ISSN: 1432-1106

Keywords: Unanesthetized cat ; Cerebellum ; Purkyně cells ; Mossy fiber fields ; Climbing fiber fields ; Cutaneous mechanoreceptors

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. In cats with local anaesthesia the cutaneous receptive fields of individual Purkyně cells of the vermis and pars intermedia of the anterior lobe were assessed by recording the simple spike discharges and climbing fiber responses following controlled mechanical stimulation of the foot pads of all four limbs (taps and pressure stimuli) and of the hairy skin (air jets) of the limbs and the body. 2. Exploring the receptive fields with taps and air jets revealed for the mossy fiber transmitted activity that in a population of 93 cells 37 had small receptive fields from the distal areas of one limb only; 28 had discontinuous receptive fields in two limbs and the others had their receptive fields on three or four limbs (multiple discontinuous fields) or over all or almost all of the body surface (widespread fields). 3. Testing with pressure stimuli to the toe pads inside and outside the receptive fields outlined with taps and air jets led to modifications of the simple spike discharges in 86 of 90 cells investigated in this way. Inclusion of these pressure fields increases the percentage of cells with discontinuous multiple mossy fiber transmitted receptive fields on three or four limbs to nearly 70% of our sample of Purkyně cells. 4. Approximately 50% of the cells with mossy fiber transmitted receptive fields also had climbing fiber transmitted fields. With the climbing fiber input the receptive fields were comparable with those for mossy fiber inputs when exploring with taps or air jets. Some additional climbing fiber transmitted cutaneous receptive fields were found with pressure stimuli. These pressure fields were usually restricted to one or two limbs. 5. These findings imply that the mossy fiber transmitted receptive fields of a given Purkyně cell usually extended over a wider area than the climbing fiber transmitted fields. As a rule the (small) climbing fiber fields were overlapped more or less completely by the (large) mossy fiber fields. 6. The receptive fields were either purely excitatory or partly excitatory and partly inhibitory. Pure inhibitory fields were rare. Within a mixed field no dominant pattern has been detected in regard to the arrangement of the excitatory and inhibitory areas. With the multiple fields from three or four limbs, receptive fields of complex composition seem to be the rule rather than the exception. It appears that in samples of cells like the present, each one has its own individuality in regard to shape and extent and in the intermingling of the excitatory and inhibitory field areas from mossy and climbing fiber inputs.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235507

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Mossy and climbing fiber inputs from cutaneous mechanoreceptors to cerebellar Purkyně cells in unanesthetized cats (1977)

Leicht, R. ; Rowe, M. J. ; Schmidt, R. F.

Springer

Experimental brain research 27 (1977), S. 459-477

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ISSN: 1432-1106

Keywords: Unanesthetized cat ; Cerebellum ; Mossy fiber input ; Climbing fiber input ; Cutaneous mechanoreceptors

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Mossy and climbing fiber inputs from cutaneous mechanoreceptors to Purkyně cells of vermis and pars intermedia of the cerebellar anterior lobe were studied in locally anesthetized, paralyzed cats prepared for painless recording sessions. In this preparation the mossy fiber and climbing fiber pathways remain fully functional. Simple spikes and climbing fiber discharges were recorded simultaneously through extracellular glass micro-electrodes and thereafter filtered off from each other for separate, computer-assisted analysis. Controlled mechanical stimulation (air jets, taps, pressure) was performed on the foot pads of all four limbs and on the hairy skin of the limbs and the body. 2. Long term recording of the spontaneous activity of 110 Purkyně cells revealed a simple spike activity of 85 imp./s ± 49 imp./s (mean ± S.D.) and 1.00 ± 0.78 climbing fiber responses per second. 3. Taps to foot pads and air jets to hairy skin revealed that most of the short latency responses via mossy fibers resulted from activation of the receptors of the ipsilateral forefoot. With the same stimuli climbing fiber discharges from the ipsilateral feet were more frequently evoked than from the contralateral feet. Both via mossy and climbing fibers the contralateral hindlimb gave the smallest contribution. 4. Simple spike responses were evoked more commonly by pad stimulation (tap stimuli) than by hair stimulation (air jets). For both types of stimuli excitatory responses were more frequent (3 ∶ 1) than inhibitory ones. Similarly, pad stimulation was more effective than hair stimulation in inducing climbing fiber responses. Ipsilateral stimuli were much more effective than contralateral ones in evoking both simple spike and climbing fiber responses. 5. Steady pressure stimuli modify the Purkyně cell discharges via mossy and climbing fiber pathways. Excitatory and inhibitory effects often of very long duration have been observed via both pathways. Again the ipsilateral forelimb was more effective than the other limbs. Mossy fiber responses were at least three times as common as climbing fiber responses and excitatory responses were more frequent than inhibitory ones. 6. There is no apparent relation between the spontaneous discharge rates of the Purkyně cells and the response magnitudes of the mossy fiber and climbing fiber induced excitatory and inhibitory changes in the impulse pattern of Purkyně cells during steady pressure stimuli.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239036

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Cutaneous mechanoreceptors influencing impulse discharges in cerebellar cortex. I. In mossy fibers (1972)

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

Springer

Experimental brain research 15 (1972), S. 245-260

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ISSN: 1432-1106

Keywords: Cerebellum ; Cutaneous mechanoreceptors ; Mossy fibers ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary This paper gives an account of single mossy fiber responses when three types of mechanical stimulation are applied to the forefoot and hindfoot of the cat which is either decerebrate and unanesthetized or lightly anesthetized by pentothal or chloralose. The mechanical stimuli were applied either to footpads (brief pulses, taps, or longer square pulses or ramps) or to the hairy skin by air jets. Recording of single mossy fibers was extracellular by glass microelectrodes that were inserted into the granular layer of the cerebellar cortex or the subjacent white matter. As described in previous papers computer averaging techniques usually of 64 responses have been employed to enhance reliability. Taps evoked pure excitatory responses from many mossy fibers, which were usually brief high frequency bursts resembling those evoked by nerve volleys. Usually the threshold displacement was less than 0.2 mm and thresholds as low as 0.01 mm were observed. There were often considerable differences in the intensities of responses from different pads of the same foot. Successive pulses of mechanical stimulation evoked mossy fiber responses of diminished intensity. Longer mechanical stimuli with square or ramp onsets evoked various admixtures of phasic and tonic responses. Hair stimulation was often a very effective excitant, the receptive field for a single mossy fiber usually covering a considerable area of foot and leg. Taps and pressure to the pads were also effective in inhibiting the background discharge of some mossy fibers, and admixtures of excitatory and inhibitory actions were observed. The results are discussed in relationship to the discharges evoked in primary afferent fibers by cutaneous mechanoreceptor stimulation. They provide an intermediate stage of information between mechanoreceptor stimulation and the response of Purkyně cells as described in the next paper.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235910

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Cutaneous mechanoreceptors influencing impulse discharges in cerebellar cortex. II. In Purkyně cells by mossy fiber input (1972)

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

Springer

Experimental brain research 15 (1972), S. 261-277

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ISSN: 1432-1106

Keywords: Cerebellum ; Cutaneous mechanoreceptors ; Mossy fibers ; Purkyně cells ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary This paper gives an account of single Purkyně cell responses when three types of mechanical stimulation, as in the previous paper, are applied to the forefoot and hindfoot of the decerebrate unanesthetized cat. Attention was concentrated on the effects of brief mechanical pulses to the footpad. Recording was extracellular by glass microelectrodes and special precautions were taken in identifying the spike responses as being due to a single Purkyně cell and in securing its effective isolation for our computer averaging techniques, as described in the previous papers. All Purkyně cells were in the ipsilateral anterior lobe in the lateral vermis or pars intermedia of lobules III, IV, V, except for a few recordings in the extreme rostral zone of lobule VI. Mechanical pulses or taps evoked responses from many Purkyně cells which were pure excitatory, pure inhibitory or admixtures thereof. The latencies of onset were usually in the range of 12–20 msec from the onset of the tap, which tends to be a little longer than the observed latencies for mossy fiber responses described in the preceding paper. There was often a considerable difference in the sizes of the responses evoked from different pads of the same foot, and the usual threshold for response was below 0.2 mm amplitude. Durations of responses were usually 10–20 msec for excitation and 50–100 msec for inhibition. Pressure pulses to the central foot pads of 2 sec duration evoked a wide variety of responses: brief phasic at “on” and “off” that could be admixtures of excitation and inhibition; almost pure tonic excitations or inhibitions that were well maintained during the 2 sec; phasic-tonic responses in various relative degrees. Usually 500 g was maximally effective and the threshold was below 100 g. Hair receptors were stimulated preferentially by brief air jets, there being brief excitatory or inhibitory responses much as with taps, but with rather longer latency. The effective area was usually fairly extensive over the hairy skin of the foot. In general the effects on Purkyně cells by cutaneous mechanoreceptors acting via mossy fibers were in accord with the mossy fiber responses reported in the preceding paper and with the well-known excitatory and inhibitory effects that are exerted by mossy fiber inputs on Purkyně cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235911

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Cutaneous mechanoreceptors influencing impulse discharges in cerebellar cortex. III. In Purkyně cells by climbing fiber input (1972)

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

Springer

Experimental brain research 15 (1972), S. 484-497

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ISSN: 1432-1106

Keywords: Cerebellum ; Cutaneous mechanoreceptors ; Climbing fibers ; Purkyně cells

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary An account is given of single Purkyně cell responses that are evoked by cutaneous mechanoreceptors acting via climbing fibers (CF). There was no complication by mossy fiber input, which was selectively depressed by light pentothal anesthesia. Brief mechanical pulses (taps) to the footpads and air jets on hairy skin were very effective in evoking CF responses, the usual range of latencies being 25–35 msec for the hindfoot and 19–30 msec for the forefoot. There was often a considerable difference in the effectiveness of the different pads of the same foot. For any particular Purkyně cell there was a close correspondence between the receptive fields for footpads and hairy skin. The threshold was often below 0.02 mm taps for the most sensitive pads, and was even lower for more prolonged mechanical displacements. Mechanical pulses of 80 to several hundred msec in duration were effective in evoking CF responses of Purkyně cells at “off” as well as at “on.” This finding and the very low threshold strongly suggest Pacinian corpuscles as the principal receptors concerned in activating the CF system. Repetitive taps to footpads were effective at slow frequencies, 5 or 10 Hz, but there was a response only to the first tap with a frequency of 65 Hz.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236404

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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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7

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Somatotopic studies on the vermal cortex of the cerebellar anterior lobe of unanaesthetized cats (1977)

Leicht, R. ; Schmidt, R. F.

Springer

Experimental brain research 27 (1977), S. 479-490

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ISSN: 1432-1106

Keywords: Unanaesthetized cat ; Cerebellum ; Cerebellar somatotopy ; Cutaneous mechanoreceptors

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. In unanaesthetized cats with intact neuraxis the relation between the cutaneous receptive fields of Purkyně cells and the position of these cells in the vermis of the cerebellar anterior lobe was studied with the specific question whether this cerebellar area exhibits any kind of somatotopy in the absence of central anaesthesia. To establish the receptive fields the skin of all four limbs and of the trunk was probed with mechanical stimuli (taps, air-jets, pressure). The recording sites in the vermis were determined histologically. 2. In regard to the mossy fiber transmitted input none of the four limbs showed a dominant representation in one or more of the lobules rostral of the fissura prima or in a parasagittal section. For the ipsilateral limbs there is a greater mossy fiber input to lobule V from the forelimb than from the hindlimb (84 ∶ 59%), and a reversed preponderance for lobule II (45 ∶ 80%) but this indication of a somatotopic arrangement is not unequivocally paralleled by the other mossy fiber inputs. 3. Also in regard to the climbing fiber input no distinct somatotopical arrangement has been detected. Again it has been noted that the ipsilateral inputs have a somewhat greater input to lobule V from the forelimb than from the hindlimb (35 ∶ 22%), and the reverse finding holds true for lobule II (10∶ 45%). 4. The overall results did not change appreciably when the responses were grouped according to their latencies or when the Purkyně cells were classified according to the patterns of convergence of their receptive fields. 5. The absence of a distinct somatotopic organization in the vermis is a direct consequence of the considerable convergence from the cutaneous mechanoreceptors of the limbs onto the individual Purkyně cells which occurs via the mossy and the climbing fiber pathways. It is suggested that this convergence indicates that the vermal Purkyně cells are particularly involved in coordinating the motor activity of forelimbs and hindlimbs.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239037

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Gating of tactile input from the hand (1990)

Schmidt, R. F. ; Schady, W. J. L. ; Torebjörk, H. E.

Springer

Experimental brain research 79 (1990), S. 97-102

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ISSN: 1432-1106

Keywords: Sensory gating ; Finger movement ; Cutaneous mechanoreceptors ; Microneurography ; Intraneural microstimulation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Intraneural microstimulation within the median nerve of alert healthy subjects was used to evoke tactile sensations at threshold for conscious detection. The effect of movement on these sensations was studied by asking the subjects to estimate their magnitude before, during and after movement of the appropriate finger at different speeds. It was found that sensations of flutter and pressure were both attenuated by movement, as was the magnitude of spontaneous paraesthesiae. The degree of sensory inhibition correlated positively with speed of movement and was comparable to the previously reported reduction in cortical somatosensory evoked potentials by movement, using suprathreshold stimuli. These results indicate that (i) movement inhibits tactile sensations of different qualities, (ii) such inhibition is velocity-dependent, and (iii) threshold sensations are amenable to central modulation short of their abolition. It is likely that the mechanisms of inhibition of exteroceptive inputs during movement are contingent upon the character of the sensory stimulus and the nature of the motor task.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228877

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Gating of tactile input from the hand (1990)

Schmidt, R. F. ; Torebjörk, H. E. ; Schady, W. J. L.

Springer

Experimental brain research 79 (1990), S. 103-108

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ISSN: 1432-1106

Keywords: Finger movement ; Sensory gating ; Cutaneous mechanoreceptors ; Local anaesthesia ; Intraneural microstimulation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Tactile sensations of flutter or pressure were evoked in alert human subjects by intraneural microstimulation in the median nerve. Ratings were obtained of the magnitude of sensations at threshold for conscious detection during movement of the finger to which they were projected, of neighbouring fingers or of the opposite hand. Results showed that inhibition of flutter sensation was maximal in the moved finger (48%), with a weaker graded effect from adjacent (23%) to distant (19%) fingers of the same hand. Sensations of pressure were more markedly suppressed but the gradients were similar. Movement of the opposite hand and isometric contraction of the forearm muscles had little effect. Local anaesthetic blocks of the median and other upper limb nerves counteracted most of the inhibitory effect of movement on cutaneous flutter sensation. We conclude that sensory gating is largely restricted to the moved digits, that it applies to submodalities of both flutter and pressure and that sensory gating is mostly mediated by cutaneous receptor input from the hand.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228878

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