Implementing physics-based digital patient twins to tailor the switch of oral morphine to transdermal fentanyl patches based on patient physiology
Author:
Funder
Parrotia Foundation
OPO Foundation
Publisher
Elsevier BV
Reference51 articles.
1. An individualized digital twin of a patient for transdermal fentanyl therapy for chronic pain management;Bahrami;Drug Deliv. Transl. Res.,2023
2. Predicting transdermal fentanyl delivery using physics-based simulations for tailored therapy based on the age;Bahrami;Drug Deliv.,2022
3. Stimulus–Response mechanistic modeling of pharmacodynamic drug-drug interaction: extension of the operational receptor model of agonism;Bisaso;Inform. Med. Unlocked,2022
4. Reduction and lumping of physiologically based pharmacokinetic models: prediction of the disposition of fentanyl and pethidine in humans by successively simplified models;Björkman;J. Pharmacokinet. Pharmacodyn.,2003
5. Application of physiologic models to predict the influence of changes in body composition and blood flows on the pharmacokinetics of fentanyl and alfentanil in patients;Bjorkman;Anesthesiology,1998
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