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  • Title: Responses of feline caudal hypothalamic cardiorespiratory neurons to hypoxia and hypercapnia.
    Author: Dillon GH, Waldrop TG.
    Journal: Exp Brain Res; 1993; 96(2):260-72. PubMed ID: 8270021.
    Abstract:
    Several studies have suggested that the caudal hypothalamus modulates responses to hypercapnia and hypoxia. In addition, this area of the hypothalamus contains neurons that have a sympathoexcitatory discharge. The purpose of the present study was to determine whether the basal discharge of caudal hypothalamic neurons that are stimulated by hypercapnia or hypoxia is related to cardiovascular (sympathetic discharge and/or the cardiac cycle) and/or respiratory activity (phrenic nerve discharge). Hypothalamic single unit activity, phrenic nerve activity, and cervical sympathetic nerve activity were recorded in anesthetized cats. Computer averaging techniques were used to compare temporally the discharge of hypothalamic neurons with cardiovascular and/or respiratory activity. Cardiorespiratory and hypothalamic neuronal responses to ventilation with hypoxic (10% O2/90% N2) and hypercapnic (5% CO2/95% O2) gases were determined in intact and in peripherally-chemodenervated, barodenervated cats. Thirty-two percent of hypothalamic neurons were stimulated by a hypercapnic stimulus in intact cats; of those that were stimulated by hypercapnia, all had a basal discharge related to cardiovascular and/or respiratory activity. Hypoxia significantly increased the discharge rate of 21% of hypothalamic units in intact animals; 90% of those had a cardiovascular and/or respiratory-related rhythm. Only 13% of the neurons were stimulated by both hypoxia and hypercapnia. Similar results were found in barodenervated, peripherally chemodenervated cats. Neurons excited by these stimuli in both the intact and denervated cats were found to be concentrated in the posterior hypothalamic area. The results of this study suggest that a group of caudal hypothalamic neurons contribute to the cardiorespiratory responses to hypoxia and hypercapnia, but via separate subpopulations of neurons. In addition, input from peripheral baroreceptor and chemoreceptor afferents is not required for this modulation.
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