Lesions of regions for in vitro ventilatory genesis eliminate gasping but not eupnea.

Medullary regions, termed 'pre-inspiratory' and 'pre-Bötzinger', are considered critical for the neurogenesis of rhythmic ventilatory activity of in vitro preparations of the neonatal rat. We examined the influence of destruction of neurons in these regions, by microinjections of kainic acid, upon eupnea and gasping in vivo. Decerebrate, vagotomized, paralyzed and ventilated rats of age 8-15 days were used; the phrenic nerve activity was recorded. Eupnea was not consistently altered following destruction of neurons in any region. However, in the majority of animals, anoxia-induced gasping was not observed following injections of kainic acid into the 'pre-inspiratory' region, 'pre-Bötzinger' complex or lateral tegmental field; the latter region is important for the neurogenesis of gasping in adults. Injections into other regions did not prevent the elicitation of gasping. These results do not support the possibility that neuronal activities which are responsible for respiratory rhythm generation in vitro underlie the neurogenesis of eupnea in vivo.