S(+)-ketamine increases muscle sympathetic activity and maintains the neural response to hypotensive challenges in humans

Abstract

Background: S(+)-Ketamine is reported to exert twofold greater analgesic and hypnotic effects but a shorter recovery time in comparison with racemic ketamine, indicating possible differential effects of stereoisomers. However, cardiovascular regulation during S(+)-ketamine anesthesia has not been studied. Muscle sympathetic activity (MSA) may be an indicator of the underlying alterations of sympathetic outflow. Whether S(+)-ketamine decreases MSA in a similar manner as the racemate is not known. Thus, the authors tested the hypothesis that S(+)-ketamine changes MSA and the muscle sympathetic response to a hypotensive challenge.

Methods: Muscle sympathetic activity was recorded by microneurography in the peroneal nerve of six healthy participants before and during anesthesia with S(+)-ketamine (670 microg/kg intravenously followed by 15 microg x kg(-1) x min(-1)). Catecholamine and ketamine plasma concentrations, heart rate, and arterial blood pressure were also determined. MSA responses to a hypotensive challenge were assessed by injection of sodium nitroprusside (2-10 microg/kg) before and during S(+)-ketamine anesthesia. In the final step, increased arterial pressure observed during anesthesia with S(+)-ketamine was adjusted to preanesthetic values by sodium nitroprusside infusion (1-6 microg x kg(-1) x min(-1)).

Results: Anesthesia with S(+)-ketamine (ketamine plasma concentration 713 +/- 295 microg/l) significantly increased MSA burst frequency (mean +/- SD; 18 +/- 6 to 35 +/- 11 bursts/min) and burst incidence (32 +/- 10 to 48 +/- 15 bursts/100 heartbeats) and was associated with a doubling of norepinephrine plasma concentration (from 159 +/- 52 to 373 +/- 136 pg/ml) parallel to the increase in MSA. Heart rate and arterial blood pressure also significantly increased. When increased arterial pressure during S(+)-ketamine was decreased to awake values with sodium nitroprusside, MSA increased further (to 53 +/- 24 bursts/min and 60 +/- 20 bursts/100 heartbeats, respectively). The MSA increase in response to the hypotensive challenge was fully maintained during anesthesia with S(+)-ketamine.

Conclusions: S(+)-Ketamine increases efferent sympathetic outflow to muscle. Despite increased MSA and arterial pressure during S(+)-ketamine anesthesia, the increase in MSA in response to arterial hypotension is maintained.