Anesthesia; Reaction Clinical Trial
Official title:
Analysis of Autonomic Function During Anesthesia Using Response Surface Model
Anesthesia in the modern age is at least a two-drug process consisting of an opioid and a sedative hypnotic (e.g., fentanyl and propofol in combination, among others). Therefore, it is important to understand the interaction pharmacodynamics of these agents as they are used clinically. A good method for visualizing the pharmacodynamic interaction behavior of drug combinations is through response surface models. Unlike traditional isobolograms that represent the concentrations of two agents that combine to produce a single degree of drug effect, response surface models characterize the complete spectrum of interaction between two or more agents for all possible levels of concentration and effect. The investigators try to use the response surface model to evaluate the effect of anesthetic combination of autonomic system.
Spectral analysis of heart rate variability (HRV) is a widely used, noninvasive technique to
assess autonomic indexes of neural cardiac control. The presence of low-frequency (LF) and
high-frequency (HF) oscillatory rhythms in the variability of the R-R interval (RRI) is well
established. To date, it is believed that LF is mediated by the parasympathetic and
sympathetic systems, whereas HF is mediated primarily by the parasympathetic system. The
current study used HRV in order to characterize autonomic nerve system (ANS) activity in
patients before and during stable hypnosis, nociceptive surgical stimulation and (adequate)
or light (inadequate) analgesia. These effects may vary with the anesthetic technique used.
Despite these previous studies, attempts to derive the relation between anesthetic
concentrations and HRV have so far remained inconclusive. Such characterization would provide
additional information on the behavior of the ANS during different anesthesic drug level and
may lay the basis for the development of new clinical application.
Propofol is now widely used in clinical practice because of its favorable recovery profile
and low incidence of side effects. However, induction of anesthesia with propofol is often
associated with a significant decrease in arterial blood pressure and heart rate (HR). The
hypotensive effect of propofol has been attributed to a decrease in systemic vascular
resistance or in cardiac output caused by a combination of venous and arterial vasodilation,
impaired baroreflex mechanisms and depression of myocardial contractility. Besides, there are
some conflicting data regarding the effects of propofol on cardiac sympathetic or
parasympathetic tone.
The investigators hypothesis was that at different propofol anesthetic drug level would have
reproducible effects on HRV. In addition, these results should be reliably characterized in
anesthetized patients provided that HRV uses analysis that can assess transient and rapid
changes in ANS activity. Therefore, the first goal of this study was to test the hypothesis
that propofol anesthesia would affect HRV depending on the concentrations, and so do opioid
and midazolam. Second, the investigators will evaluate the effect of anesthetic combination
of autonomic system.
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