The two-compartment recirculatory pharmacokinetic model--an introduction to recirculatory pharmacokinetic concepts

doi:10.1093/bja/aeh089

BJA Advance Access originally published online on February 6, 2004

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British Journal of Anaesthesia, 2004, Vol. 92, No. 4 475-484
© 2004 The Board of Management and Trustees of the British Journal of Anaesthesia

Review Article

The two-compartment recirculatory pharmacokinetic model—an introduction to recirculatory pharmacokinetic concepts

R. N. Upton

Department of Anaesthesia and Intensive Care, Royal Adelaide Hospital, University of Adelaide, North Terrace, Adelaide, SA 5005, AustraliaE-mail: richard.upton@adelaide.edu.au

Background. Some limitations of traditional (‘mamillary’)compartmental pharmacokinetic models of anaesthetic relateddrugs arise from representing the blood as a central compartment.Recirculatory pharmacokinetic models overcome these limitations.It is proposed that the simplest recirculatory model has onlytwo compartments, and that understanding the properties of thismodel is a useful introduction to recirculatory pharmacokineticconcepts.

Methods. The compartments of the model are the lungs and theremainder of the body. The traditional rate constants (e.g.k₁₂ and k₂₁) are replaced by terms that include cardiac output.Drug infusion is into the lung compartment, and drug clearanceis from the ‘body’ compartment. The ‘total’drug concentrations can be thought of as the sum of the first-passand recirculated drug concentrations at any time. Equationsfor both first-pass and total drug concentrations in arterialand mixed venous blood are presented. The effects of cardiacoutput and injection time on these concentrations were analysed.

Results. The first-pass arterial concentrations were shown tomake a significant contribution to the total concentrationsfor high-clearance drugs and/or bolus drug administration. Therewas an inverse relationship between these first-pass concentrationsand cardiac output, and a direct relationship with bolus injectionrate. Thus, the total arterial concentrations are affected bythese factors in these circumstances.

Conclusions. The two-compartment recirculatory model is thesimplest tool available for elaborating recirculatory pharmacokineticconcepts. The recirculatory approach may provide a conceptualframework of drug disposition that better matches the clinicalexperience of anaesthetists.

Br J Anaesth 2004; 92: 475–84

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