Brain research
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It has been previously demonstrated that rhythmically firing neurons (Pre-I neurons) preceding cervical root (C4 or C5) inspiratory activity, localized in the rostral ventrolateral medulla (RVL), are important in the generation of the basic respiratory rhythm in brainstem-spinal cord preparations from newborn rats. We examined the effects of single and continuous electrical stimulation applied to the RVL on Pre-I and C4 activities in these preparations. We verified that the phase of respiratory rhythm was reset when Pre-I firing was induced in both right and left RVL by single shock stimulation, whether C4 activity appeared or not. ⋯ After bilateral lesions of the caudal ventrolateral medulla, Pre-I neurons retained their rhythmic activity, while C4 activity disappeared. Present results further confirmed our hypothesis that Pre-I neurons are the primary generator of respiratory rhythm. We propose a hypothetical model of the generation of rhythmic respiratory activity.