基于生理学的药代动力学模型
他克莫司
药代动力学
医学
人口
药理学
肝移植
移植
肾功能
泌尿科
内科学
环境卫生
作者
Kotaro Itohara,Ikuko Yano,Shunsaku Nakagawa,Atsushi Yonezawa,Tomohiro Omura,Satoshi Imai,Takayuki Nakagawa,Atsuro Sawada,Takashi Kobayashi,Akira Tochio,Kaoru Sakai,Kojiro Taura,Osamu Ogawa,Kazuo Matsubara
标识
DOI:10.1016/j.dmpk.2021.100423
摘要
Physiologically based pharmacokinetic (PBPK) modeling is useful for evaluating differences in drug exposure among special populations, but it has not yet been employed to evaluate the absorption process of tacrolimus. In this study, we developed a minimal PBPK model with a compartmental absorption and transit model for renal transplant patients using available data in the literature and clinical data from our hospital. The effective permeability value of tacrolimus absorption and parameters for the single adjusting compartment were optimized via sensitivity analyses, generating a PBPK model of tacrolimus for renal transplant patients with good predictability. Next, we extrapolated the pharmacokinetics of tacrolimus for liver transplant patients by changing the population demographic parameters of the model. When the physiological parameters of a population with normal liver function were changed to those of a population with impaired hepatic function (Child-Pugh class A) in the constructed renal transplant PBPK model, the predicted tacrolimus concentrations were consistent with the observed concentrations in liver transplant patients. In conclusion, the constructed tacrolimus PBPK model for renal transplant patients could predict the pharmacokinetics in liver transplant patients by slightly reducing the hepatic function, even at three weeks post-transplantation.
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