阿西米尼的临床药理学:综述。

IF 4.6 2区 医学 Q1 PHARMACOLOGY & PHARMACY Clinical Pharmacokinetics Pub Date : 2024-10-29 DOI:10.1007/s40262-024-01428-6
Matthias Hoch, Felix Huth, Paul William Manley, Ioannis Loisios-Konstantinidis, Francois Pierre Combes, Ying Fei Li, Yunlin Fu, Sherwin K B Sy, Vanessa Obourn, Abhijit Chakraborty, Florence Hourcade-Potelleret
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引用次数: 0

摘要

阿西米尼(Asciminib)是BCR::ABL1激酶活性的第一类异构抑制剂,专门针对ABL肉豆蔻酰口袋(STAMP)。阿西米尼获批用于治疗对≥2种酪氨酸激酶抑制剂耐药或不耐受的慢性期慢性髓性白血病成人患者或携带T315I突变的患者(剂量为200毫克,每日两次),每日总剂量为80毫克,本综述侧重于阿西米尼的药代动力学(PK)和药效学数据。据预测,阿昔米尼几乎可从肠道完全吸收,绝对生物利用度(F)约为73%。应在空腹状态下给药,因为食物(尤其是高脂肪膳食)会减少暴露量。阿西米尼暴露量的增加略高于剂量比例,重复给药后未观察到与时间相关的 PK 变化。这种药物的清除率低(6.31 升/小时),分布容积适中(111 升),与人体血浆蛋白结合率高(97.3%)。在各项研究中,阿西米尼的表观终末消除半衰期(t1/2)估计在 7 至 15 小时之间。阿西米尼的 PK 不会受到体重、年龄、性别、种族或肝肾功能损害的实质性影响。阿昔米尼主要通过 CYP3A4 介导的氧化作用(36.0%)以及 UGT2B7 和 UGT2B17 介导的葡萄糖醛酸化作用(分别为 13.3% 和 7.8%)进行代谢;通过乳腺癌抗性蛋白的胆汁分泌约占全身总清除率的 31.1%,这主要是通过肝脏代谢和粪便途径的胆汁分泌,肾脏排泄起次要作用。根据临床和预测的药物相互作用研究,本文总结了阿西米尼作为受害者和施害者可能发生的 PK 药物相互作用。可靠的暴露-反应模型描述了阿西米尼的暴露-疗效和暴露-安全性关系。在没有 T315I 突变的患者中,BCR::ABL1IS 百分比时间过程的暴露-疗效分析突出表明存在轻微的正相关关系,尽管没有临床意义。与不携带 T315I 突变的患者相比,携带 T315I 突变的患者需要更高的暴露量才能获得疗效。暴露与安全性关系分析表明,在广泛的暴露或剂量调查范围内,暴露与相关不良事件之间没有明显的关联。阿西米尼对心脏复极没有临床相关影响。在此,我们回顾了迄今为止支持阿西米尼临床开发计划和监管申请的临床药理数据。
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Clinical Pharmacology of Asciminib: A Review.

Asciminib is a first-in-class allosteric inhibitor of the kinase activity of BCR::ABL1, specifically targeting the ABL myristoyl pocket (STAMP). This review focuses on the pharmacokinetic (PK) and pharmacodynamic data of asciminib, which is approved at a total daily dose of 80 mg for the treatment of adult patients with chronic myeloid leukemia in chronic phase who are either resistant or intolerant to ≥ 2 tyrosine kinase inhibitors or those harboring the T315I mutation (at a dose of 200 mg twice daily). Asciminib is predicted to be almost completely absorbed from the gut, with an absolute bioavailability (F) of approximately 73%. It should be administered in a fasted state, as food (particularly high-fat meals) reduces exposure. Asciminib displays a slightly greater than dose-proportional increase in exposure, with no time-dependent changes in PK observed following repeated dosing. This drug shows low clearance (6.31 L/h), with a moderate volume of distribution (111 L) and high human plasma protein binding (97.3%). The apparent terminal elimination half-life (t1/2) across studies was estimated to be between 7 and 15 h. The PK of asciminib is not substantially affected by body weight, age, gender, race, or renal or hepatic impairment. Asciminib is primarily metabolized via CYP3A4-mediated oxidation (36.0%) and UGT2B7- and UGT2B17-mediated glucuronidation (13.3% and 7.8%, respectively); biliary secretion via breast cancer resistance protein contributes to about 31.1% to total systemic clearance, which is mainly through hepatic metabolism and biliary secretion through the fecal pathway, with renal excretion playing a minor role. The potential for PK drug interaction for asciminib both as a victim and a perpetrator has been summarized here based on clinical and predicted drug-drug interaction studies. Robust exposure-response models characterized asciminib exposure-efficacy and exposure-safety relationships. In patients without the T315I mutation, the exposure-efficacy analysis of the time course of BCR::ABL1IS percentages highlighted the existence of a slightly positive, albeit not clinically significant, relationship. Higher exposure was required for efficacy in patients harboring the T315I mutation compared with those who did not. The exposure-safety relationship analysis showed no apparent association between exposure and adverse events of interest over the broad range of exposure or dose levels investigated. Asciminib has also been shown to have no clinically relevant effect on cardiac repolarization. Here, we review the clinical pharmacology data available to date for asciminib that supported its clinical development program and regulatory applications.

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来源期刊
CiteScore
8.80
自引率
4.40%
发文量
86
审稿时长
6-12 weeks
期刊介绍: Clinical Pharmacokinetics promotes the continuing development of clinical pharmacokinetics and pharmacodynamics for the improvement of drug therapy, and for furthering postgraduate education in clinical pharmacology and therapeutics. Pharmacokinetics, the study of drug disposition in the body, is an integral part of drug development and rational use. Knowledge and application of pharmacokinetic principles leads to accelerated drug development, cost effective drug use and a reduced frequency of adverse effects and drug interactions.
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