A Compartmental Modelling Framework for Drug Distribution in Lean and Obese Patients in Long-Term General Anesthesia

Amani R. Ynineb; Erhan Yumuk; Hamed Farbakhsh; Ghada Ben Othman; Dana Copot; Isabela R. Birs; Cristina I. Muresan; Robin De Keyser; Samir Ladaci; Clara M. Ionescu; Martine Neckebroek

doi:10.23919/ECC64448.2024.10590971

A Compartmental Modelling Framework for Drug Distribution in Lean and Obese Patients in Long-Term General Anesthesia

Amani R. Ynineb, Erhan Yumuk, Hamed Farbakhsh, Ghada Ben Othman, Dana Copot, Isabela R. Birs, Cristina I. Muresan, Robin De Keyser, Samir Ladaci, Clara M. Ionescu, Martine Neckebroek

Department of Control and Automation Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In personalized medicine applications such as general anesthesia, an individualised pharmacokinetic (PK) model requires to move away from the classical assumption of homogeneous drug mixing in various tissue compartments in the body. By default, these model coefficients are pre-surgery initialized from population based models as a function of age, gender, weight, height, lean body mass and do not include at this moment specific drug diffusion patterns in the fat compartment, whereas various types of fat will induce various time constants in non-lean patients. In this work, the pharmacokinetic compartmental model structure is revisited to account for non-uniform distribution of uptake/clearance time constants in patients as a nonlinear function of body mass index. Simulations are confirming expected patterns of drug distribution in the body and can account for post-anesthesia side effects up to 72 hours. The model is a novel advance in providing the control community with yet increasingly realistic patient models for closed loop control of anesthesia.

Original language	English
Title of host publication	2024 European Control Conference, ECC 2024
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	3033-3038
Number of pages	6
ISBN (Electronic)	9783907144107
DOIs	https://doi.org/10.23919/ECC64448.2024.10590971
Publication status	Published - 2024
Event	2024 European Control Conference, ECC 2024 - Stockholm, Sweden Duration: 25 Jun 2024 → 28 Jun 2024

Publication series

Name	2024 European Control Conference, ECC 2024

Conference

Conference	2024 European Control Conference, ECC 2024
Country/Territory	Sweden
City	Stockholm
Period	25/06/24 → 28/06/24

Bibliographical note

Publisher Copyright:
© 2024 EUCA.

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10.23919/ECC64448.2024.10590971

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Ynineb, A. R., Yumuk, E., Farbakhsh, H., Othman, G. B., Copot, D., Birs, I. R., Muresan, C. I., De Keyser, R., Ladaci, S., Ionescu, C. M., & Neckebroek, M. (2024). A Compartmental Modelling Framework for Drug Distribution in Lean and Obese Patients in Long-Term General Anesthesia. In 2024 European Control Conference, ECC 2024 (pp. 3033-3038). (2024 European Control Conference, ECC 2024). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.23919/ECC64448.2024.10590971

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title = "A Compartmental Modelling Framework for Drug Distribution in Lean and Obese Patients in Long-Term General Anesthesia",

abstract = "In personalized medicine applications such as general anesthesia, an individualised pharmacokinetic (PK) model requires to move away from the classical assumption of homogeneous drug mixing in various tissue compartments in the body. By default, these model coefficients are pre-surgery initialized from population based models as a function of age, gender, weight, height, lean body mass and do not include at this moment specific drug diffusion patterns in the fat compartment, whereas various types of fat will induce various time constants in non-lean patients. In this work, the pharmacokinetic compartmental model structure is revisited to account for non-uniform distribution of uptake/clearance time constants in patients as a nonlinear function of body mass index. Simulations are confirming expected patterns of drug distribution in the body and can account for post-anesthesia side effects up to 72 hours. The model is a novel advance in providing the control community with yet increasingly realistic patient models for closed loop control of anesthesia.",

author = "Ynineb, {Amani R.} and Erhan Yumuk and Hamed Farbakhsh and Othman, {Ghada Ben} and Dana Copot and Birs, {Isabela R.} and Muresan, {Cristina I.} and {De Keyser}, Robin and Samir Ladaci and Ionescu, {Clara M.} and Martine Neckebroek",

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year = "2024",

doi = "10.23919/ECC64448.2024.10590971",

language = "English",

series = "2024 European Control Conference, ECC 2024",

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Ynineb, AR, Yumuk, E, Farbakhsh, H, Othman, GB, Copot, D, Birs, IR, Muresan, CI, De Keyser, R, Ladaci, S, Ionescu, CM & Neckebroek, M 2024, A Compartmental Modelling Framework for Drug Distribution in Lean and Obese Patients in Long-Term General Anesthesia. in 2024 European Control Conference, ECC 2024. 2024 European Control Conference, ECC 2024, Institute of Electrical and Electronics Engineers Inc., pp. 3033-3038, 2024 European Control Conference, ECC 2024, Stockholm, Sweden, 25/06/24. https://doi.org/10.23919/ECC64448.2024.10590971

A Compartmental Modelling Framework for Drug Distribution in Lean and Obese Patients in Long-Term General Anesthesia. / Ynineb, Amani R.; Yumuk, Erhan; Farbakhsh, Hamed et al.
2024 European Control Conference, ECC 2024. Institute of Electrical and Electronics Engineers Inc., 2024. p. 3033-3038 (2024 European Control Conference, ECC 2024).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Othman, Ghada Ben

AU - Copot, Dana

AU - Birs, Isabela R.

AU - Muresan, Cristina I.

AU - De Keyser, Robin

AU - Ladaci, Samir

AU - Ionescu, Clara M.

AU - Neckebroek, Martine

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AB - In personalized medicine applications such as general anesthesia, an individualised pharmacokinetic (PK) model requires to move away from the classical assumption of homogeneous drug mixing in various tissue compartments in the body. By default, these model coefficients are pre-surgery initialized from population based models as a function of age, gender, weight, height, lean body mass and do not include at this moment specific drug diffusion patterns in the fat compartment, whereas various types of fat will induce various time constants in non-lean patients. In this work, the pharmacokinetic compartmental model structure is revisited to account for non-uniform distribution of uptake/clearance time constants in patients as a nonlinear function of body mass index. Simulations are confirming expected patterns of drug distribution in the body and can account for post-anesthesia side effects up to 72 hours. The model is a novel advance in providing the control community with yet increasingly realistic patient models for closed loop control of anesthesia.

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ER -

Ynineb AR, Yumuk E, Farbakhsh H, Othman GB, Copot D, Birs IR et al. A Compartmental Modelling Framework for Drug Distribution in Lean and Obese Patients in Long-Term General Anesthesia. In 2024 European Control Conference, ECC 2024. Institute of Electrical and Electronics Engineers Inc. 2024. p. 3033-3038. (2024 European Control Conference, ECC 2024). doi: 10.23919/ECC64448.2024.10590971

A Compartmental Modelling Framework for Drug Distribution in Lean and Obese Patients in Long-Term General Anesthesia

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