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1.
JMJ-Juba Medical Journal. 2002; 1 (2): 105-113
en Inglés | IMEMR | ID: emr-59584

RESUMEN

This paper investigates at segmental level, the behaviour of respiratory motorneurones during cold blocking of the spinal cord in hypocapnic apnoea. In expiratory biased preparations, lowering CO[2] level renders the inspiratory motoneurones silent, whereas the expiratory motorneurones discharge tonically. As for the effects of cold stimuli in eupnoea, application of the cold thermode to the dorsolateral surface of the spinal cord in hypocapnic apnoea evoked transient reciprocal reflex burst activity of both inspiratory and expiratory motoneurone populations. The expiratory burst activity attained double that of the control level. These activities could be explained by same reasoning as for dorsolateral cold block of the spinal cord in eupnea. Alternatively this additional activity may be attributed to the tonic non-respiratory source. Following recovery from blocking, the expiratory motoneurones showed an exaggerated tonic activity mounting double that before blocking and at the same level of the excitatory response produced by the cold thermode. The simplest explanation of this additional activity would be that, the effects of cold thermode could have aroused the preparation and over the time scale involved nearly 30min; led to a lighter level of general anaesthesia which would favour the expiratory bias state of the preparation. Alternatively, a release process was involved. An interesting possibility could be that, this exaggerated expiratory activity could have resulted from postsynaptic potentiation induced by accumulation of synaptic transmitter following cold block of the expiratory bulbospinal drive. Another possibility could be due to another system whose activity was released by blocking. One candidate for this would be the reticulospinal fibres arising from the nucleus reticularis gigantocellularis. Because sustained stimulation within the medial reticular formation causes a sustained activation of expiratory motoneurons and reciprocal inhibition of inspiratory motoneurons. Hence, it is proposed that such added tonicity of discharge arises from released traffic in the reticulospinal and expiratory bulbospinal axons


Asunto(s)
Animales , Reflejo/fisiología , Reflejo Anormal , Apnea , Músculos Respiratorios , Mecánica Respiratoria , Dióxido de Carbono/efectos adversos , Trietyoduro de Galamina , Respiración Artificial
2.
JMJ-Juba Medical Journal. 2002; 1 (2): 114-121
en Inglés | IMEMR | ID: emr-59585

RESUMEN

It was previously established that passive movements of the chest wall induced by artificial respiration elicits reflex activity in both alpha and gamma motomeurons which persists in the spinal preparation. In this work re-examination of these results at segmental level was performed, with the intention to show the behaviour of the chest wall inflation and deflation reflexes at levels of CO[2] just at threshold for rhythm generation, on the one hand, and their response to cold blocking of the spinal cord on the other. In the first instance, the reflexes fluctuate in activity with the central respiratory drive [CROP] indicating a measure of coexistence as proposed by Sears. Hence, these results support the view that the normal functional operation of the inhibitory phase of the CROP is to prevent reflex excitation of the antagonistic muscle contraction. In the second instance, with application of the cold thermode to the dorsolateral surface of the spinal cord, the alpha spikes gradually decreased in number before completely abolished. Eventually the cold block had interrupted the descending supraspinal drives and subsequently brought the mean level of the membrane potential of the expiratory alpha motoneurones to its resting level. Thus the loss of these inputs at segmental level specifically reduces the efficacy of synaptic transmission from expiratory muscle spindle afferents. Although not pump modulated, the tonic discharging gammas reduced in number with the progress of cooling, This seems to be one of the sources facilitating the inflation reflex as their reduced firing reduced the amplitude of the reflex. Results were further discussed


Asunto(s)
Animales , Reflejo/efectos adversos , Reflejo Anormal , Trietyoduro de Galamina/efectos adversos , Apnea , Hiperventilación , Dióxido de Carbono , Frío
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