Model-informed drug development: The mechanistic HSK3486 physiologically based pharmacokinetic model informing dose decisions in clinical trials of specific populations

IF 1.7 4区医学 Q3 PHARMACOLOGY & PHARMACY

Biopharmaceutics & Drug Disposition Pub Date : 2023-06-14 DOI:10.1002/bdd.2368

Miao Zhang, Zhiheng Yu, Huan Liu, Xu Wang, Haiyan Li, Xueting Yao, Dongyang Liu

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引用次数: 2

Abstract

HSK3486, a central nervous system inhibitor, has demonstrated superior anesthetic properties in comparison with propofol. Owing to the high liver extraction ratio of HSK3486 and the limited susceptibility to the multi-enzyme inducer, rifampicin, the indicated population of HSK3486 is substantial. Nevertheless, in order to expand the population with indications, it is crucial to assess the systemic exposure of HSK3486 in specific populations. Moreover, the main metabolic enzyme of HSK3486 is UGT1A9, which shows a gene polymorphism in the population. Thus, to scientifically design the dose regimen for clinical trials in specific populations, a HSK3486 physiologically based pharmacokinetic model was developed in 2019 to support model-informed drug development (MIDD). Several untested scenarios of HSK3486 administration in specific populations, and the effect of the UGT1A9 gene polymorphism on HSK3486 exposure were estimated as well. The predicted systemic exposure was increased slightly in patients with hepatic impairment and in the elderly, consistent with later clinical trial data. Meanwhile, there was no change in the systemic exposure of patients with severe renal impairment and in neonates. However, under the same dose, the predicted exposure of pediatric patients aged 1 month to 17 years was decreased significantly (about 21%–39%). Although these predicted results in children have not been validated by clinical data, they are comparable to clinical findings for propofol in children. The dose of HSK3486 in pediatrics may need to be increased and can be adjusted according to the predicted results. Moreover, the predicted HSK3486 systemic exposure in the obese population was increased by 28%, and in poor metabolizers of UGT1A9 might increase by about 16%–31% compared with UGT1A9 extensive metabolizers. Combined with the relatively flat exposure–response relationship for efficacy and safety (unpublished), obesity and genetic polymorphisms are unlikely to result in clinically significant changes in the anesthetic effect at the 0.4 mg/kg dose in adults. Therefore, MIDD can indeed provide supportive information for dosing decisions and facilitate the efficient and effective development of HSK3486.

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基于模型的药物开发:机制HSK3486基于生理的药代动力学模型在特定人群的临床试验中为剂量决定提供信息

HSK3486是一种中枢神经系统抑制剂，与异丙酚相比具有优越的麻醉特性。由于HSK3486的肝脏提取率高，对多酶诱导剂利福平的敏感性有限，因此HSK3486的适应症人群较多。然而，为了扩大适应症人群，评估HSK3486在特定人群中的全身暴露是至关重要的。此外，HSK3486的主要代谢酶为UGT1A9，在群体中表现出基因多态性。因此，为了科学设计特定人群临床试验的剂量方案，2019年开发了基于HSK3486生理的药代动力学模型，以支持模型知情药物开发(MIDD)。此外，我们还评估了几种未经测试的特定人群给药HSK3486的情况，以及UGT1A9基因多态性对HSK3486暴露的影响。在肝功能损害患者和老年人中，预测的全身暴露量略有增加，这与后来的临床试验数据一致。同时，严重肾功能损害患者和新生儿的全身暴露没有变化。然而，在相同剂量下，1个月至17岁儿童患者的预测暴露量显著下降(约21%-39%)。虽然这些对儿童的预测结果尚未得到临床数据的验证，但它们与异丙酚在儿童中的临床结果相当。儿科可能需要增加HSK3486的剂量，并可根据预测结果进行调整。此外，与UGT1A9广泛代谢者相比，肥胖人群中HSK3486的预测全身暴露量增加了28%，UGT1A9代谢不良者中HSK3486的预测全身暴露量可能增加了约16%-31%。结合疗效和安全性相对平坦的暴露-反应关系(未发表)，肥胖和遗传多态性不太可能导致0.4 mg/kg剂量下成人麻醉效果的临床显著变化。因此，MIDD确实可以为给药决策提供支持性信息，促进HSK3486高效、有效的发展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biopharmaceutics & Drug Disposition 医学-药学

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Biopharmaceutics & Drug Dispositionpublishes original review articles, short communications, and reports in biopharmaceutics, drug disposition, pharmacokinetics and pharmacodynamics, especially those that have a direct relation to the drug discovery/development and the therapeutic use of drugs. These includes: - animal and human pharmacological studies that focus on therapeutic response. pharmacodynamics, and toxicity related to plasma and tissue concentrations of drugs and their metabolites, - in vitro and in vivo drug absorption, distribution, metabolism, transport, and excretion studies that facilitate investigations related to the use of drugs in man - studies on membrane transport and enzymes, including their regulation and the impact of pharmacogenomics on drug absorption and disposition, - simulation and modeling in drug discovery and development - theoretical treatises - includes themed issues and reviews and exclude manuscripts on - bioavailability studies reporting only on simple PK parameters such as Cmax, tmax and t1/2 without mechanistic interpretation - analytical methods