Pharmacokinetic modelling to enable early attrition of repurposed antiviral drug combination candidates with a high likelihood of failure in COVID-19

IF 3.1 3区医学 Q2 PHARMACOLOGY & PHARMACY

British journal of clinical pharmacology Pub Date : 2024-10-10 DOI:10.1111/bcp.16312

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引用次数: 0

Abstract

Pharmacokinetic modelling to enable early attrition of repurposed antiviral drug combination candidates with a high likelihood of failure in COVID-19

Lorraine Ralph¹, Olivier Touzelet², Ahlam Ali², Joanne Sharp¹, Richard Walker², James Stewart³, Miles Carroll⁴, Ultan Power² and Andrew Owen¹

¹Centre of Excellence for Long-acting Therapeutics, University of Liverpool; ²School of Medicine, Dentistry and Biomedical Sciences, Queens University Belfast; ³Infection Biology & Microbiomes, University of Liverpool; ⁴Pandemic Sciences Institute, Medical Sciences Division, University of Oxford

Introduction: COVID-19 remains a concern in some patient population groups such as those who are immunosuppressed. While antiviral monotherapy is available, development of combination therapy could offer improved efficacy while reducing the risk of developing resistance. Repurposing drugs already approved or at late stage development can speed up the time to market, reduce risk of failure and decrease costs relative to more traditional development programmes. To avoid unnecessary waste of resources when selecting drugs for potential repurposing, it is essential to rule out compounds that are unlikely to achieve efficacious concentrations at safe doses in patients.

Aim: To conduct pharmacokinetic modelling and simulations to predict drug concentrations in patients for drug combinations identified as having activity against SARS-CoV-2 in vitro.

Methods: Literature searches were performed using PubMed to identify clinical concentration–time profiles for drug combinations determined as having synergistic activity against SARS-CoV-2 in Calu-3 and AAT cells. Published data were digitalised using WebPlotDigitizer and formatted for pharmacokinetic analysis. One-, two- and three- compartment models were fitted to the data as appropriate using R. Selected models were used to simulate plasma concentration-time profiles in a patient population (n = 1000) at dose regimens considered to have an acceptable safety profile. Simulated plasma concentrations were compared with the in vitro calculated EC90 values for SARS-CoV-2.

Results: In vitro studies identified 37 drug combinations with synergistic efficacy against SARS-CoV-2. Five drugs could not undergo PK modelling due to unavailability of clinical concentration data in the literature. Two drugs had been withdrawn from the market due to adverse events so did not undergo any further PK evaluation. Three drugs were eliminated from further evaluation due to other reasons (formulation challenges, prior clinical testing, etc.). Of the remaining combinations, PK simulations identified 18 combinations where at least one drug would not achieve efficacious systemic concentrations in patients.

Conclusions: Modelling and simulations of pharmacokinetic data used in conjunction with EC90 values obtained from in vitro studies can optimize the selection of lead candidates for drug repurposing by eliminating those with a high certainty of failure. Early attrition enables resources to be dedicated to candidates more likely to succeed.

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艾滋病、肝炎和其他抗病毒药物临床药理学国际研讨会摘要。

33 建立药代动力学模型，以便及早淘汰 COVID-19 中很可能失败的重新用途抗病毒药物复方候选药物洛林-拉尔夫1、奥利维耶-图泽雷2、阿赫拉姆-阿里2、乔安妮-夏普1、理查德-沃克2、詹姆斯-斯图尔特3、迈尔斯-卡罗尔4、奥坦-鲍尔2 和安德鲁-欧文11利物浦大学长效治疗卓越中心；2 贝尔法斯特皇后大学医学、牙科和生物医学科学学院；3 利物浦大学感染生物学与微生物组；4 牛津大学医学科学部流行病科学研究所引言：COVID-19 在某些患者群体（如免疫抑制人群）中仍令人担忧。虽然可以采用单一抗病毒疗法，但开发联合疗法可以提高疗效，同时降低产生抗药性的风险。与更传统的开发计划相比，对已获批准或处于后期开发阶段的药物进行再利用，可以加快上市时间、降低失败风险并降低成本。为避免不必要的资源浪费，在选择药物进行潜在的再利用时，必须排除那些不可能在患者体内以安全剂量达到有效浓度的化合物。目的：对体外确定具有抗SARS-CoV-2活性的药物组合进行药代动力学建模和模拟，以预测其在患者体内的药物浓度：方法：使用 PubMed 进行文献检索，以确定在 Calu-3 和 AAT 细胞中对 SARS-CoV-2 具有协同活性的药物组合的临床浓度-时间曲线。使用 WebPlotDigitizer 对已发表的数据进行数字化处理，并将其格式化以用于药代动力学分析。使用 R 对数据进行了适当的一室、二室和三室模型拟合。选定的模型用于模拟患者群体（n = 1000）在被认为具有可接受安全性的剂量方案下的血浆浓度-时间曲线。模拟血浆浓度与体外计算的 SARS-CoV-2 EC90 值进行了比较：结果：体外研究确定了 37 种对 SARS-CoV-2 有协同疗效的药物组合。有 5 种药物由于没有文献中的临床浓度数据而无法进行 PK 模拟。两种药物因不良反应已退出市场，因此没有进行进一步的 PK 评估。3 种药物由于其他原因（制剂挑战、先前的临床试验等）被排除在进一步评估之外。在剩余的组合中，PK 模拟确定了 18 种组合，其中至少有一种药物无法在患者体内达到有效的全身浓度：药代动力学数据的建模和模拟与体外研究获得的 EC90 值结合使用，可以通过剔除那些失败把握较大的候选药物，优化药物再利用的先导候选药物的选择。及早减员可将资源用于更有可能成功的候选药物。

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

British journal of clinical pharmacology 医学-药学

CiteScore

6.30

自引率

8.80%

发文量

419

审稿时长

1 months

期刊介绍： Published on behalf of the British Pharmacological Society, the British Journal of Clinical Pharmacology features papers and reports on all aspects of drug action in humans: review articles, mini review articles, original papers, commentaries, editorials and letters. The Journal enjoys a wide readership, bridging the gap between the medical profession, clinical research and the pharmaceutical industry. It also publishes research on new methods, new drugs and new approaches to treatment. The Journal is recognised as one of the leading publications in its field. It is online only, publishes open access research through its OnlineOpen programme and is published monthly.