Characteristics of renal sympathetic nerve activity in sodium-retaining disorders.

Abstract

Characteristics of renal sympathetic nerve activity in conscious rats with established congestive heart failure, cirrhosis, or nephrotic syndrome were analyzed using three methods: mean integrated voltage over time, power spectrum analysis, and sympathetic peak detection analysis. Compared with control rats, all three disease models had increased mean integrated voltage. On power spectrum analysis, all three disease models had increased relative power at the heart rate frequency, indicating that it was related to renal sympathetic nerve discharge coupled to the cardiac cycle. Congestive heart failure and nephrotic syndrome rats showed increased relative power in the low-frequency range, whereas cirrhotic and nephrotic syndrome rats showed decreased relative power in the high-frequency range. On sympathetic peak detection analysis, the frequency of sympathetic peaks was greater in the three disease models compared with the control rats. In cirrhotic rats, the distribution of sympathetic peak heights was shifted toward an increased number of peaks of lesser height. It is concluded that basal renal sympathetic nerve activity is chronically increased in these disease models. This is manifest as increased power coupled to the cardiac cycle, which may reflect the disease-specific defects in arterial and cardiac baroreflex control. In cirrhosis, there is possible selective activation of a subgroup of renal sympathetic nerve fibers.