Fiche publication


Date publication

juin 2012

Auteurs

Membres identifiés du Cancéropôle Est :
Pr MARCHAL Frédéric , Pr CHENUEL Bruno , Pr POUSSEL Mathias


Tous les auteurs :
Varechova S, Poussel M, Schweitzer C, Demoulin B, Chenuel B, Marchal F

Résumé

Expiration reflex and cough may have distinct afferent pathways and/or central integrative mechanisms that may both result in different stimulus response latencies. A newly described method that uses a punctuate mechanical tracheal stimulus to provoke defensive ventilatory reflexes should allow the stimulus response latency to be calculated with reasonable accuracy. The aim of the study was to test whether cough and expiration reflex have different stimulus response latencies. Four hundred and sixty one mechanical tracheal stimulations (50-300 msec) were performed in 21 anesthetized, tracheotomized rabbits. Twenty three percent stimulations (108) provoked a cough reflex and 37% an expiration reflex (171). The individual mean stimulus response latency was computed for each reflex, calculated from stimulus onset to earliest detectable change in ventilatory flow. Cough reflex latency was significantly shorter in inspiration compared to expiration (257+/-19 msec vs 391+/-61 msec; p=0.01). In contrast, the expiration reflex latency was significantly shorter in expiration compared to inspiration (210+/-11 msec vs 329+/-29 msec, p=0.003). It is concluded that the within breath dependence of the difference in stimulus response latency between cough and expiration reflex is more likely to express different brainstem mechanisms but difference in afferent fibres may not be excluded.

Référence

Pulm Pharmacol Ther. 2012 Jun;25(3):242-7