Respiratory arrhythmias and airway CO2, lung receptors, and central inspiratory activity.
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The purpose of this study was to determine whether hypocapnia affects heart rate secondary to an effect on pulmonary receptors. Dogs were anesthetized and placed on cardiopulmonary bypass. Interrelationships among airway CO2, central inspiratory activity, and lung receptor effects on respiratory-related heart rate changes (respiratory arrhythmias) were studied after vagal efferent activity was increased secondary to baroreceptor stimulation. Hypocapnia, isolated to the lungs, produced an increase in the magnitude of the respiratory arrhythmias observed. Two mechanisms may produce these results. Hypocapnia affects pulmonary receptors, which 1) reflexly alter heart rate and 2) modulate breathing frequency, thus altering the dynamics of the respiratory arrhythmias that were produced. The results also suggested that the reflex increase in heart rate in response to lung inflation and the Hering-Breuer expiratory-facilitatory reflex are either produced by different pulmonary receptors or by the same pulmonary receptors but may be mediated by different central mechanisms.