par Gorini, Massimo;Estenne, Marc 
Référence Respiration physiology, 85, 1, page (83-96)
Publication Publié, 1991
Référence Respiration physiology, 85, 1, page (83-96)
Publication Publié, 1991
Article révisé par les pairs
| Résumé : | To examine how anesthetized dogs compensate for the diaphragmatic shortening that occurs during head-up tilting, we measured the electroneurogram (ENG) of the C5 phrenic root and the electromyographic (EMG) activity of the parasternal intercostal and transversus abdominis muscles in eight spontaneously breathing animals during postural changes between supine (0°) and 80° head-up. Both steady state ENG and EMG activities and first breath responses to tilting from 80° head-up to supine were studied. These experiments have shown that: (1) anesthetized dogs respond to head-up tilting by increasing the neural drive to the costal diaphragm and parasternal intercostals; (2) this response, however, does not occur on the first breath and therefore cannot compensate for the immediate changes in diaphragmatic length; (3) the abdominal muscles, in contrast, show a first breath response to tilting and their activation is primarily responsible for the maintenance of tidal volume. Unlike in humans, increases in neural inspiratory drive in head-up anesthetized dogs are mediated by a chemoreceptive, rather than proprioceptive, feedback mechanism. |
