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Reflex cardiorespiratory effects of nociceptive oesophageal distension in the decerebrate rat

Published online by Cambridge University Press:  18 January 2002

Mark Pickering
Affiliation:
Department of Human Anatomy and Physiology, University College Dublin, Earlsfort Terrace, Dublin 2 and Department of Veterinary Physiology and Biochemistry, University College Dublin, Ballsbridge, Dublin 4, Ireland
Deirdre Campion
Affiliation:
Department of Human Anatomy and Physiology, University College Dublin, Earlsfort Terrace, Dublin 2 and Department of Veterinary Physiology and Biochemistry, University College Dublin, Ballsbridge, Dublin 4, Ireland
James F. X. Jones
Affiliation:
Department of Human Anatomy and Physiology, University College Dublin, Earlsfort Terrace, Dublin 2 and Department of Veterinary Physiology and Biochemistry, University College Dublin, Ballsbridge, Dublin 4, Ireland
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Abstract

It is well established that painful distension of hollow viscera such as the oesophagus can evoke a reflex tachycardia and pressor response; however, the nature of the oesophageal afferent pathway(s) remains controversial. This study investigated the afferent arc which mediates these reflex cardiovascular changes in the decerebrate rat. In addition, the effect of oesophageal distension on the respiratory activity of the costal diaphragm was studied. Focal distension of the oesophagus (volume of 0.3 ml applied for 10 s) just above the diaphragmatic hiatus evoked a reproducible presssor response and tachycardia in the decerebrate rat. Respiration was transiently inhibited at the beginning of oesophageal distension and prior to the rise in blood pressure. Neuromuscular blockade with the nicotinic acetylcholine receptor blocker α-bungarotoxin (140 µg bolus) had no effect on the magnitude of the cardiovascular response. Therefore the efferent supply to the striated muscle of the rat oesophagus was not essential in mediating this reflex. Signal averaging of the mean blood pressure response showed that neither selective ablation of oesophageal spinal afferents nor bilateral vagotomy altered the early trajectory of the pressure response. Bilateral vagotomy reduced the peak magnitude of the response to sustained oesophageal distension. In contrast, selective removal of spinal afferents had no effect on the response. Ablation of both neural pathways was essential to abolish the reflex cardiovascular and respiratory responses. It can be concluded that both vagal and spinal afferent pathways are utilised in the reflex cardiorespiratory response to painful oesophageal distension. Although ablation of one neural pathway had no effect on the response it was still implicated in the reflex, since ablation of both pathways was necessary to prevent the cardiorespiratory changes. This study emphasises the need for caution when inferences are made concerning single selective ablations of multiply innervated organs. Experimental Physiology (2002) 87.1, 41-48.

Type
Full Length Papers
Copyright
© The Physiological Society 2002

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