Reflex mechanisms for changes in renal nerve activity during positive end-expiratory pressure.

This study was designed to investigate the interaction between carotid sinus baroreceptors and cardiopulmonary receptors in the reflex control of renal nerve activity (RNA) during positive end-expiratory pressure (PEEP) in anesthetized dogs. PEEP at two different levels (10 and 20 cmH2O) was applied to the following groups: animals with neuraxis intact (I group, n = 12); vagal and aortic nerve denervated animals with carotid sinus nerves intact (V group, n = 6); carotid sinus denervated animals with vagal and aortic nerves intact (SD group, n = 6); and carotid sinus denervated animals also having severed vagal and aortic nerves (SAV group, n = 12). Mean blood pressure (MBP), central venous pressure, and mean airway pressure were also simultaneously measured. In the I group, no significant alterations in RNA occurred during PEEP at both levels, even when MBP fell significantly. Although the drop in MBP in the SD group was similar to that in the I group, RNA decreased significantly 10 s after intervention at both PEEP levels, followed by a recovery of RNA toward the control level. In contrast, a significant increase in RNA, which continued until the end of PEEP, appeared in the V group immediately after each intervention. In the SAV group, RNA responses to PEEP, which were observed in the other groups, were abolished. These results provide evidence that during PEEP, renal nerve activity is modified by an interaction between carotid sinus baroreceptors and cardiopulmonary receptors; excitatory effects occur via carotid sinus nerves and inhibitory effects occur via vagal afferents.