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Physiological Society Symposium - Vagal Control: From Axolotl to Man: Preface

Published online by Cambridge University Press:  08 March 2002

Stuart Egginton
Affiliation:
Comparative Special Interest Group and Cardiovascular/Respiratory Control Special Interest Group
Teresa Thomas
Affiliation:
Comparative Special Interest Group and Cardiovascular/Respiratory Control Special Interest Group

Abstract

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The Physiological Society hosts a number of Special Interest Groups whose task it is to foster lively debate among members within a specific area of topical research. Inevitably there are many topics that straddle these sometimes arbitrary divides where fresh understanding may be derived from two or more groups focussing attention on a specific topic. Vagal control of the cardiovascular system is a good example where an exchange of ideas may be of mutual benefit among the Comparative section (utilising the diversity of form resulting from natural selection) and the Cardiovascular/Respiratory Control section (concentrating on the intricacies of the mammalian system). The title of the joint symposium held at the Oxford meeting recognised the evolutionary theme that was used to highlight the various patterns of sympathetic control that are found among the vertebrates. The first contribution highlights the presumptive ancestral nature of vagal control, where it predated sympathetic innervation of the heart (Taylor et al., pp. 771-776). The role of the vagus in unusual situations is examined by use of examples from periodic feeding in reptiles (Wang et al., pp. 777-784), cardiac shunting in crocodiles (Axelsson, pp. 785-789), and diving bradycardia in birds (P. J. Butler, delivered at the meeting but not included here). The central role of the vagus in mammalian homeostasis is emphasised with respect to hibernation (Milsom et al., pp. 791-796), while complexities of the mammalian system are illustrated by the rat heart (Jones, pp. 797-801) and perinatal development in lambs (Lalani et al., pp. 803-810). We conclude with overviews of the controversies in human studies regarding vagal control during exercise (Coote & Bothams, pp. 811-815) and its utility in the clinical setting (Casadei, pp. 817-823). We hope this collection of short articles will help stimulate further debate and interaction. Experimental Physiology (2001) 86.6, 769-769.

STUART EGGINTON Convenor, Comparative Special Interest Group

TERESA THOMAS Convenor, Cardiovascular/Respiratory Control Special Interest Group

Type
Symposium Papers
Copyright
© The Physiological Society 2001