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1

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Noradrenergic and Cholinergic Modulations of Corticocerebellar Activity Modify the Gain of Vestibulospinal Reflexes (1992)

POMPEIANO, O.

Oxford, UK : Blackwell Publishing Ltd

Annals of the New York Academy of Sciences 656 (1992), S. 0

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ISSN: 1749-6632

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Natural Sciences in General

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1749-6632.1992.tb25233.x

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2

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RESPONSES OF VESTIBULOSPINAL NEURONS TO NECK AND MACULAR VESTIBULAR INPUTS IN THE PRESENCE OR ABSENCE OF THE PALEOCEREBELLUM (1981)

Boyle, R. ; Pompeiano, O.

Oxford, UK : Blackwell Publishing Ltd

Annals of the New York Academy of Sciences 374 (1981), S. 0

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ISSN: 1749-6632

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Natural Sciences in General

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1749-6632.1981.tb30884.x

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3

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Identification of different size motoneurons labeled by the retrograde axonal transport of horseradish peroxidase (1977)

Pellegrini, M. ; Pompeiano, O. ; Corvaja, N.

Springer

Pflügers Archiv 368 (1977), S. 161-163

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ISSN: 1432-2013

Keywords: alpha and gamma motoneurons ; horseradish peroxidase ; medial gastrocnemius and soleus muscles

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Three main groups of motoneurons of different size have been labeled in adult cats by using the method for retrograde axonal transport following injection of horseradish peroxidase in the medial gastrocnemius and soleus muscles. In particular small, medium-size and large neurons which probably correspond respectively to gamma, small alpha and large alpha motoneurons innervating the calf muscles, have been identified and the corresponding area measured.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01063471

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4

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Relation between cell size and response characteristics of medullary reticulospinal neurons to labyrinth and neck inputs (1983)

Pompeiano, O. ; Manzoni, D. ; Srivastava, U. C. ; [et al.]

Springer

Pflügers Archiv 398 (1983), S. 298-309

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ISSN: 1432-2013

Keywords: Reticulospinal neurons ; Cell size ; Macular vestibular input ; Neck input

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract 1. The activity of presumably inhibitory reticulospinal neurons with cell bodies located in the medial aspects of the medullary reticular formation and axons projecting to lumbosacral cord has been recorded in decerebrate cats and their response characteristics to sinusoidal stimulation of labyrinth receptors (134 neurons) and neck receptors (110 neurons) have been related to cell size inferred from the conduction velocity of the corresponding axons. 2. No significant correlation was found between resting discharge and conduction velocity of the axons. 3. Among the recorded reticulospinal neurons, 64/134 (i.e. 47.8%) units responded to roll tilt, while 66/110 (i.e. 60.0%) units responded to neck rotation (0.026 Hz, ±10°). A positive correlation was found between gain (imp./s/deg) of the labyrinth and neck responses and conduction velocity of the axons. Thus, due to absence of correlation between resting discharge and conduction velocity of the axons, larger neurons exhibited a greater percentage modulation (sensitivity) to the labyrinth and the neck input than smaller neurons. These findings are attributed to an overall increase in density or efficacy of the synaptic contacts made by the vestibular and neck afferent pathways on reticulospinal neurons of increasing size. 4. Units receiving neck-macular vestibular convergence showed on the average an higher gain of the neck (G N) response with respect to the labyrinth (G L) response (G N/G:L: 1.95±1.49, S.D.;n=43); however, due to a parallel increase in gain of the reticulospinal neurons to both neck and labyrinth inputs, the relative effectiveness of the two inputs did not vary in different units as a function of cell size. 5. The reticulospinal neurons were mainly excited by the direction of animal orientation and/or neck displacement. In particular, most of these positional sensitive units were excited by side-up animal tilt (37/58, i.e. 63.8%) and by sidedown neck rotation (47/60, i.e. 78.3%). These predominant response patterns were particularly found between large size neurons, whereas small size neurons tended to show also other response patterns. 6. The evidence indicates that in addition to intrinsic neuronal properties related to cell size, the quantitative and qualitative organization of synaptic inputs represents the critical factor controlling the responsiveness of reticulospinal neurons to vestibular and neck stimulation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00657239

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5

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Discharge activity of spindle afferents from the gastrocnemius-soleus muscle during head rotation in the decerebrate cat (1984)

Boyle, R. ; Pompeiano, O.

Springer

Pflügers Archiv 400 (1984), S. 140-150

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ISSN: 1432-2013

Keywords: Muscle spindle receptors ; Afferent discharge ; Hindlimb extensors ; Head rotation ; Vestibular input

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract 1. The activity of spindle afferents originating from both primary and secondary endings of the isometrically extended (6–8 mm) gastrocnemius-soleus (GS) muscle was recorded in precollicular decerebrate cats during sinusoidal head rotation about the longitudinal axis above a stationary body. 2. In the first group of experiments to test the influence of vestibular volleys on fusimotor neurons, an acute bilateral neck deafferentiation at C1-C3 was performed to eliminate possible influences arising from neck receptors; head rotation (0.026 Hz, ±15°) induced a weak periodic rate modulation in 6/38 (15.8%) of the tested spindle afferents; the average response gain was 0.18±0.12, SD imp./s/deg (mean firing rate, 18.9±2.8 imp./s), and the average phase angle was −43.2±47.0°, SD lag with respect to ipsilateral side-down displacement of the head (α-response pattern). In a second group of experiments head rotation studied after acute bilateral section of VII cranial nerve, thereby stimulating only neck receptors, failed to influence in a reliable manner the firing rate of 38 additional spindle afferents. In a third group of experiments in which both VIII nerves and cerevical dorsal roots were left intact, head rotation induced a response in 7/45 (15.6%) of the tested spindle afferents similar to that observed after cervical deafferentation and thus depended on stimulation of labyrinth receptors alone. 3. Over the examined frequency range of head rotation from 0.015 to 0.325 Hz (±15°), the response gain of spindle afferents was relatively stable during sinusoidal labyrinth stimulation. For most of the spindle afferents the phase angle of the response elicited at the lower frequencies was related to the direction of head orientation towards the ipsilateral sidedown, thus being attributed to labyrinth volleys originating from macular receptors; at 0.325 Hz the stimulus was less effective and some units showed a phase advance relative to head position which was attributed to costimulation of canal receptors. 4. Displacement of the muscle under study obtained by either rotation of the whole animal or body alone beneath a stationary head elicited a periodic modulation of spindle afferent discharge, independent of head orientation or type of preparation, in 51/73 (70%) of the muscle spindles tested; the average response gain was 0.20±0.19, SD imp./s/deg, and an average phase lead of +14.1±20.5°, SD with respect to the peak of the ipsilateral side-down displacement of the body or of the animal was observed. This modulation was attributed to passive pull of the muscle itself during movements involving the muscle, and was similar to that elicited during head rotation following selective stimulation of labyrinthine receptors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00585031

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6

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Coerulospinal influence on recurrent inhibition of spinal motonuclei innervating antagonistic hindleg muscles of the cat (1988)

Fung, S. J. ; Pompeiano, O. ; Barnes, C. D.

Springer

Pflügers Archiv 412 (1988), S. 346-353

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ISSN: 1432-2013

Keywords: Locus coeruleus ; Recurrent inhibition ; Renshaw cell ; Spinal cord ; Monosynaptic reflex ; Disinhibition ; Motoneuron ; Descending control

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The locus coeruleus's (LC's) effect on recurrent inhibition of gastrocnemius-soleus (GS) and common peroneal (CP) monosynaptic reflexes (MSRs) was demonstrated to exceed the concomitant facilitation, indicating the independency of LC's disinhibition and facilitation measures in this study. In contrast, the disinhibition effect correlated closely with the recurrently inhibited MSRs. The disinhibition phenomenon was also accompanied by progressive delay and diminution in the Renshaw cell field potential. Hence, the recovery of recurrently inhibited MSRs was probably due, in part at least, to the LC's inhibition of the related Renshaw cell activity. Furthermore, the site-specific, discordant changes in the disinhibition of GS, compared with CP MSRs, as revealed by tracking studies imply that representations of these antagonistic motonuclei may occupy different LC loci. Accordingly, the nonuniform disinhibition may be due to the activation of discrete aggregates of LC neurons which are responsible predominantly in controlling the recurrent inhibitory pathway belonging to one or the other of the antagonistic motonuclei. These findings support a differential LC inhibitory control of Renshaw cell activity, releasing the related motoneurons for the Ia synaptic transmission — a disinhibitory process that is crucial for the LC's independent control of the recurrent circuit of antagonistics extensor and flexor motoneurons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01907550

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7

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Responses of purkinje cells of the cerebellar vermis to neck and macular vestibular inputs (1979)

Denoth, F. ; Magherini, P. C. ; Pompeiano, O. ; [et al.]

Springer

Pflügers Archiv 381 (1979), S. 87-98

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ISSN: 1432-2013

Keywords: Purkinje cells ; Cerebellar vermis ; Neck input ; Macular vestibular input

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract 1. The dynamic analysis of the control exerted by neck and macular vestibular receptors on the cerebellar cortex has been investigated in precollicular decerebrate cats submitted to sinusoidal rotation along the longitudinal axis of the animal at the frequency of 0.026 Hz and at peak amplitudes up to 10° for the neck input and 15° for the macular input. 2. Purkinje (P) cells located in the vermal cortex of the cerebellar anterior lobe, particularly in the longitudinal parasagittal zone which projects to the ipsilateral lateral vestibular nucleus (LVN), showed a sinusoidal modulation of the firing rate in response to sinusoidal stimulation of the neck receptors or the vestibular receptors, the phase of the responses being in most units related to the extreme neck or head position. Mossy fiber (MF) and/or climbing fiber (CF) responses of the same or different P-cells to the two inputs were observed. 3. The sensitivity of the MF-response of the P-cells to the neck input, elicited by sinusoidal rotation of the neck and expressed in per cent of the average firing rate per degree of neck rotation, corresponded on the average to 2.71±1.67, S. D. This value was significantly higher than that of the MF-response of the P-cells to the macular input elicited by sinusoidal tilt along the longitudinal axis of the whole animal, which corresponded to 1.71±1.01, S.D. 4. Most of the MF-responses of the P-cells to the neck input were characterized by an excitation during side-down rotation of the neck and by an inhibition during side-up rotation, whereas most of the MF-responses of the P-cells to the macular input showed just the opposite behavior, being inhibited by side-down tilt of the animal and excited by side-up tilt. 5. Units which received a convergent input from both neck and macular receptors and showed an antagonistic pattern of response to the two inputs were tested during rotation of the head alone, in order to excite simultaneously the two kinds of receptors. Due to the higher sensitivity of the neck over the macular response, the magnitude of the combined response tended to be similar to the difference between the individual ones. Moreover, the phase of the resulting response was always modified with respect to that of the response to the neck input alone, and became in some instances related to velocity of neck rotation rather than to neck position. 6. These findings indicate that opposite responses to neck and macular inputs occur at corticocerebellar level. However, a final integration of the two inputs, leading to suppression of the conflicting responses, may occur either at medullary (LVN) or at spinal cord level.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00582338

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8

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Reciprocal responses to tilt of neurones within both fore- and hindlimb regions of Deiters' nucleus (1979)

Boyle, R. ; Pompeiano, O.

Springer

Pflügers Archiv 381 (1979), S. 179-183

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ISSN: 1432-2013

Keywords: Lateral vestibular nucleus ; Macular vestibular receptors ; Sinusoi ; dal stimulation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In decerebrate cats with cerebellum intact the frequency response of 102 neurons located within the lateral vestibular nucleus (LVN) to sinusoidal stimulation of vestibular receptors was analyzed. Positional sensitive units, showing a reciprocal pattern of response to lateral tilting, characterized by an excitation during ipsilateral and a depression during contralateral tilt, were equally found in the rostroventral (forelimb) and dorsocaudal (hindlimb) divisions of the LVN. No unit was found to be excited during both ipsilateral and contralateral tilts. A comparison between these findings and those reported in cerebellectomized preparations indicates that the reciprocal pattern of response to tilt of neurons, particularly located in the hindlimb region of the LVN, depends upon the anatomical integrity of the cerebellum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00582350

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9

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A comparison of the response characteristics of cerebellar fastigial and vermal cortex neurons to sinusoidal stimulation of macular vestibular receptors (1980)

Stanojević, M. ; Erway, L. ; Ghelarducci, B. ; [et al.]

Springer

Pflügers Archiv 385 (1980), S. 95-104

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ISSN: 1432-2013

Keywords: Cerebellum ; Medial corticonuclear zone ; Macular vestibular input

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract 1. The responses of neurons located in the rostral part of the fastigial nucleus to sinusoidal tilt of the animal were recorded in precollicular decerebrate cats and compared with those elicited by the same stimulation in Purkinje (P) cells located in the vermal cortex of the cerebellar anterior lobe. In particular, by fixing the head and the body of the animal to the tilting table and by rotating the animal around its longitudinal axis, it was possible to elicit a selective labyrinth input without eliciting a neck input. 2. Among the 60 fastigial neurons tested, 43 units responded to sinusoidal tilt at the frequency of 0.026 Hz and at the peak amplitude of displacement of 10°–15°. On the other hand, among 106 P-cells tested for a mossy fiber (MF) response to the labyrinth input, 32 units were affected by the same parameters of stimulation. In both instances the response consisted in a periodic modulation of the discharge frequency, which was related to the position of the animal. Most of the responses of the fastigial units to the labyrinth input were characterized by a peak excitation in phase with side-down tilt of the animal and by inhibition during side-up tilt, whereas most of the MF-responses of the P-cells to the labyrinth input showed just the opposite behavior. 3. The threshold amplitude of tilt responsible for these responses varied in different units from 1° to 3° at the frequency of 0.026 Hz. The sensitivity of the first harmonic of the unit responses to tilt, expressed in percentage change of the average firing rate per degree of displacement, corresponded on the average to 1.73±1.16, S.D., for the fastigal neurons and to 1.61±0.94, S.D., for the P-cells. These values did not change or were only slightly modified as a result of increasing amplitude of stimulation from 1°–3° to 15°–25° at a frequency of 0.026 Hz. Moreover, changes in amplitude of stimulation at the parameters reported above did not greatly modify the phase angle of the first harmonic of the responses relative to the side-down position of the animal. Units located in the medial corticonuclear zone of the cerebellum did not show any change in sensitivity and phase angle of the responses by increasing the frequency of tilt from 0.015 to 0.20 Hz at the fixed amplitude of 10°–15°, thus indicating that these responses depended upon stimulation of macular receptors. In other units, however, these changes in frequency of rotation modified the phase angle of the responses, which became related to velocity rather than to the positional signal, due to stimulation of semicircular canal receptors. 4. The observation that most of the responsive fastigial neurons increased their firing rate, while most of the responding P-cells located in the vermal cortex of the cerebellar anterior lobe decreased their firing rate during side-down rotation of the animal is discussed in relation to the postural changes of the limbs elicited during asymmetric stimulation of macular receptors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00588687

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Critical firing level of gastrocnemius-soleus motoneurons showing a prolonged discharge following vibration of the homonymous muscles (1980)

Pompeiano, O. ; Wand, P.

Springer

Pflügers Archiv 385 (1980), S. 263-268

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ISSN: 1432-2013

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00647467

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