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使用定量系统毒理学软件平台DILIsym对健康成年人过量服用缓释和速释剂型对乙酰氨基酚后的药代动力学和肝脏生物标志物进行建模与模拟。

Modeling and Simulation of Acetaminophen Pharmacokinetics and Hepatic Biomarkers After Overdoses of Extended-Release and Immediate-Release Formulations in Healthy Adults Using the Quantitative Systems Toxicology Software Platform DILIsym.

作者信息

Beaudoin James J, Yang Kyunghee, Howell Brett A, Kenz Zackary, Lakhani Vinal V, Woodhead Jeffrey L, Lai John C K, Gelotte Cathy K, Sista Sury, Atillasoy Evren

机构信息

Quantitative Systems Pharmacology Solutions, Simulations Plus Inc., Research Triangle Park, North Carolina, USA.

Kenvue Inc., Montgomery Township, New Jersey, USA.

出版信息

CPT Pharmacometrics Syst Pharmacol. 2025 Apr;14(4):681-694. doi: 10.1002/psp4.13304. Epub 2025 Feb 3.

DOI:10.1002/psp4.13304
PMID:39899441
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12001258/
Abstract

Acetaminophen (APAP) has been formulated as immediate-, modified-, and extended-release tablets (APAP-IR, -MR, and -ER, respectively). However, there was concern that APAP-MR previously available in Europe could form a bezoar after a large overdose, leading to delayed absorption and atypical pharmacokinetics (PK) compared to APAP-IR, and that current treatment guidelines developed for APAP overdose to prevent severe hepatotoxicity are inappropriate for APAP-MR. In contrast, APAP-ER caplets available in the United States are designed with an IR layer and an erodible ER layer. Using modeling and simulation, predicted PK and hepatotoxicity biomarkers following various acute overdose and repeated supratherapeutic ingestion (RSTI) scenarios with APAP-IR and APAP-ER were compared to investigate the differences between these two formulations. The existing APAP-IR representation within DILIsym v8A, a quantitative systems toxicology model of drug-induced liver injury, was updated, and an APAP-ER model was developed, using newly acquired in vitro (e.g., tiny-TIMsg) and clinical data. The model and simulated populations (SimPops) representing healthy adults were extensively validated, before simulating PK and three clinically useful hepatic biomarkers after various overdose scenarios. On average, APAP exposure after acute overdose and RSTI in healthy adults was predicted to be slightly lower for APAP-ER compared to APAP-IR, partially due to lower APAP absorption for APAP-ER, while not markedly impacting the expected time course of APAP plasma concentrations. Similar hepatic biomarker profiles were predicted for both APAP formulations. Based on these results, the APAP overdose consensus treatment guidelines updated in 2023 are not further impacted by this report.

摘要

对乙酰氨基酚(APAP)已被制成速释片、缓释片和长效释放片(分别为APAP-IR、-MR和-ER)。然而,有人担心欧洲以前使用的APAP-MR在大量过量服用后可能形成胃石,导致吸收延迟和与APAP-IR相比非典型的药代动力学(PK),并且目前为预防严重肝毒性而制定的APAP过量治疗指南不适用于APAP-MR。相比之下,美国的APAP-ER胶囊设计有一个速释层和一个可侵蚀的长效释放层。使用建模和模拟,比较了APAP-IR和APAP-ER在各种急性过量和重复超治疗剂量摄入(RSTI)情况下预测的PK和肝毒性生物标志物,以研究这两种制剂之间的差异。在药物性肝损伤定量系统毒理学模型DILIsym v8A中更新了现有的APAP-IR模型,并利用新获得的体外(如tiny-TIMsg)和临床数据开发了APAP-ER模型。在模拟各种过量情况后的PK和三种临床有用的肝脏生物标志物之前,对代表健康成年人的模型和模拟人群(SimPops)进行了广泛验证。平均而言,与APAP-IR相比,健康成年人急性过量和RSTI后APAP-ER的APAP暴露预计略低,部分原因是APAP-ER的APAP吸收较低,同时对APAP血浆浓度的预期时间进程没有明显影响。两种APAP制剂预测的肝脏生物标志物谱相似。基于这些结果,2023年更新的APAP过量共识治疗指南不会受到本报告的进一步影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4fcc/12001258/350006eec2ab/PSP4-14-681-g001.jpg
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