E Bystrzycka scite author profile

SUMMARY1. Responses were recorded in decereberate, unanaesthetized cats from individual cuneate neurones in order to determine firstly, the afferent sources of inhibition on cuneate neurones and secondly, the influence of afferent-induced inhibition on those response features of dynamically sensitive tactile neurones which determine their capacity to code information about parameters of tactile stimuli.2. For all cuneate neurones which displayed afferent-induced inhibition from areas surrounding or within their excitatory receptive field (71 % of the sample) it was consistently found that 300 Hz vibration at low amplitudes (<25-50 um) which selectively engages Pacinian corpuscles was an effective source of inhibition. In contrast, steady indentation which activates slowly adapting tactile afferents was quite ineffective, as was low frequency vibration (30 Hz) at amplitudes of < 50-100 jsm. The latter stimulus can be used to engage rapidly adapting receptors either within glabrous skin (presumed to be Meissners corpuscles) or in association with hair follicles. It is concluded that afferents from Pacinian corpuscles are the dominant or exclusive source of afferent-induced inhibition of cuneate neurones.3. For dynamically sensitive neurones responsive to low frequency cutaneous vibration (30 Hz) there was a reduction in the slope of stimulusresponse relations with afferent-induced inhibition, but no expansion of the range of stimulus amplitudes over which the neurone responded.4. The influence of afferent-induced inhibition on the phase-locking of impulse activity to a cutaneous vibratory wave form was examined by constructing post-stimulus time histograms and cycle histograms. Measures of dispersion of impulse activity around the preferred point of firing in the vibratory waveform indicated that the capacity of individual cuneate neuroses to code information about the frequency of the cutaneous 252 E. BYSTRZYCKA, B. S. NAIL AND MARK ROWE vibration was not systematically changed in the presence of afferentinduced inhibition.

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Studies of the pulmonary vagal control of central respiratory rhythm in the absence of breathing movements

Bartoli¹,

Bystrzycka²,

Guz³

et al. 1973

The Journal of Physiology

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SUMMARY1. Breuer's hypothesis that the vagus nerves exert a tonic control of respiratory rhythm, in addition to the phasic control, was examined.2. Closed-chest cardiopulmonary bypass was instituted in dogs weighing 20-30 kg anaesthetized with chloralose. Respiratory rhythm was recorded from a phrenic electroneurogram.3. Complete muscular paralysis induced with gallamine triethiodide produced an increase in the duration of inspiration and an increase in the amplitude of the integrated phrenic electroneurogram. There was no consistent effect on expiratory duration. Gallamine produced no effect when given after vagotomy.4. In the paralysed state, an increase in lung volume of 25-100 ml. for 30-60 sec produced a sustained increase in the duration of expiration and a decrease of respiratory rate: there was little effect on inspiratory duration, or the amplitude of the integrated phrenic electroneurogram.5. A decrease in lung volume of the same order of magnitude for the same period produced a sustained decrease in the duration of expiration and an increase of respiratory rate: there was little effect on inspiratory duration or the amplitude of the integrated phrenic electroneurogram. 6. The phenomena described in (5) and (6) constitute a high gain respiratory frequency controller. They did not occur after bilateral cervical vagotomy.7. Bilateral cervical vagotomy during complete muscular paralysis produced a further increase in the duration of inspiration and in the amplitude of the integrated phrenic electroneurogram; there was no consistent effect on expiratory duration.A. BARTOLI AND OTHERS 8. The results confirmed Breuer's hypothesis and showed that inspiratory duration and expiratory duration are controlled independently.

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Brainstem projections to the phrenic nucleus: A HRP study in the cat

Rikard-Bell

Bystrzycka

Nail

1984

Brain Research Bulletin

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Central and peripheral neural respiratory activity in the mature sheep foetus and newborn lamb

Bystrzycka¹,

Nail²,

Purves³

1975

Respiration Physiology

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Afferent projections to the dorsal and ventral respiratory nuclei in the medulla oblongata of the cat studied by the horseradish peroxidase technique

Bystrzycka

1980

Brain Research

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E Bystrzycka

Inhibition of cuneate neurones: its afferent source and influence on dynamically sensitive ‘tactile’ neurones

Studies of the pulmonary vagal control of central respiratory rhythm in the absence of breathing movements

Brainstem projections to the phrenic nucleus: A HRP study in the cat

Central and peripheral neural respiratory activity in the mature sheep foetus and newborn lamb

Afferent projections to the dorsal and ventral respiratory nuclei in the medulla oblongata of the cat studied by the horseradish peroxidase technique

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