Korean J Anesthesiol.  2012 Apr;62(4):309-316. 10.4097/kjae.2012.62.4.309.

Cross-simulation between two pharmacokinetic models for the target-controlled infusion of propofol

Affiliations
  • 1Department of Anesthesiology and Pain Medicine, Ajou University School of Medicine, Suwon, Korea. anesmin@nate.com

Abstract

BACKGROUND
We investigated how one pharmacokinetic (PK) model differed in prediction of plasma (Cp) and effect-site concentration (Ceff) using a reproducing simulation of target-controlled infusion (TCI) with another PK model of propofol.
METHODS
Sixty female patients were randomly assigned to TCI using Marsh PK (Group M) and TCI using Schnider PK (Group S) targeting 6.0 microg/ml of Cp of propofol for induction of anesthesia, and loss of responsiveness (LOR) was evaluated. Total and separate cross-simulation were investigated using the 2 hr TCI data (Marsh TCI and Schnider TCI), and we investigated the reproduced predicted concentrations (MARSHSCH and SCHNIDERMAR) using the other model. The correlation of the difference with covariates, and the influence of the PK parameters on the difference of prediction were investigated.
RESULTS
Group M had a shorter time to LOR compared to Group S (P < 0.001), but Ceff at LOR was not different between groups. Reproduced simulations showed different time courses of Cp. MARSHSCH predicted a higher concentration during the early phase, whereas SCHNIDERMAR was maintained at a higher concentration. Volume and clearance of the central compartment were relevant to the difference of prediction, respectively. Body weight correlated well with differences in prediction between models (Rsqr = 0.9821, P < 0.001).
CONCLUSIONS
We compared two PK models to determine the different infusion behaviors during TCI, which resulted from the different parameter sets for each PK model.

Keyword

Pharmacokinetic models; Propofol; Target-controlled infusion

MeSH Terms

Anesthesia
Body Weight
Female
Humans
Plasma
Propofol
Wetlands
Propofol
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