{"title":"将溶出数据纳入 PBPK 模型,建立奥美拉唑肠溶胶囊的虚拟生物等效性和临床相关规范","authors":"Ruwei Yang, Yaqi Lin, Kaifeng Chen, Jie Huang, Shuang Yang, An Yao, Xiaoyan Yang, Deqing Lei, Jing Xiao, Guoping Yang, Qi Pei","doi":"10.1208/s12248-024-00956-0","DOIUrl":null,"url":null,"abstract":"<p><p>Currently, Biopharmaceutics Classification System (BCS) classes I and III are the only biological exemptions of immediate-release solid oral dosage forms eligible for regulatory approval. However, through virtual bioequivalence (VBE) studies, BCS class II drugs may qualify for biological exemptions if reliable and validated modeling is used. Here, we sought to establish physiologically based pharmacokinetic (PBPK) models, in vitro-in vivo relationship (IVIVR), and VBE models for enteric-coated omeprazole capsules, to establish a clinically-relevant dissolution specification (CRDS) for screening BE and non-BE batches, and to ultimately develop evaluation criteria for generic omeprazole enteric-coated capsules. To establish omeprazole's IVIVR based on the PBPK model, we explored its in vitro dissolution conditions and then combined in vitro dissolution profile studies with in vivo clinical trials. The predicted omeprazole pharmacokinetics (PK) profiles and parameters closely matched the observed PK data. Based on the VBE results, the bioequivalence study of omeprazole enteric-coated capsules required at least 48 healthy Chinese subjects. Based on the CRDS, the capsules' in vitro dissolution should not be < 28%-54%, < 52%, or < 80% after two, three, and six hours, respectively. Failure to meet these dissolution criteria may result in non-bioequivalence. Here, PBPK modeling and IVIVR methods were used to bridge the in vitro dissolution of the drug with in vivo PK to establish the BE safety space of omeprazole enteric-coated capsules. The strategy used in this study can be applied in BE studies of other BCS II generics to obtain biological exemptions and accelerate drug development.</p>","PeriodicalId":50934,"journal":{"name":"AAPS Journal","volume":"26 4","pages":"82"},"PeriodicalIF":5.0000,"publicationDate":"2024-07-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Establishing Virtual Bioequivalence and Clinically Relevant Specifications for Omeprazole Enteric-Coated Capsules by Incorporating Dissolution Data in PBPK Modeling.\",\"authors\":\"Ruwei Yang, Yaqi Lin, Kaifeng Chen, Jie Huang, Shuang Yang, An Yao, Xiaoyan Yang, Deqing Lei, Jing Xiao, Guoping Yang, Qi Pei\",\"doi\":\"10.1208/s12248-024-00956-0\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Currently, Biopharmaceutics Classification System (BCS) classes I and III are the only biological exemptions of immediate-release solid oral dosage forms eligible for regulatory approval. 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Based on the CRDS, the capsules' in vitro dissolution should not be < 28%-54%, < 52%, or < 80% after two, three, and six hours, respectively. Failure to meet these dissolution criteria may result in non-bioequivalence. Here, PBPK modeling and IVIVR methods were used to bridge the in vitro dissolution of the drug with in vivo PK to establish the BE safety space of omeprazole enteric-coated capsules. 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引用次数: 0
摘要
目前,生物制药分类系统(BCS)I 类和 III 类是符合监管审批条件的速释口服固体制剂的唯一生物豁免。不过,通过虚拟生物等效性(VBE)研究,如果使用可靠且经过验证的模型,BCS II 类药物也有资格获得生物豁免。在此,我们试图为奥美拉唑肠溶胶囊建立基于生理学的药代动力学(PBPK)模型、体外-体内关系(IVIVR)和虚拟生物等效性(VBE)模型,为筛选BE和非BE批次建立临床相关溶出度规范(CRDS),并最终为奥美拉唑肠溶胶囊仿制药制定评价标准。为了根据 PBPK 模型确定奥美拉唑的 IVIVR,我们探讨了其体外溶出条件,然后将体外溶出曲线研究与体内临床试验相结合。预测的奥美拉唑药代动力学(PK)曲线和参数与观察到的 PK 数据非常吻合。根据 VBE 结果,奥美拉唑肠溶胶囊的生物等效性研究需要至少 48 名健康的中国受试者。根据 CRDS,奥美拉唑肠溶胶囊的体外溶出度不应该出现以下问题
Establishing Virtual Bioequivalence and Clinically Relevant Specifications for Omeprazole Enteric-Coated Capsules by Incorporating Dissolution Data in PBPK Modeling.
Currently, Biopharmaceutics Classification System (BCS) classes I and III are the only biological exemptions of immediate-release solid oral dosage forms eligible for regulatory approval. However, through virtual bioequivalence (VBE) studies, BCS class II drugs may qualify for biological exemptions if reliable and validated modeling is used. Here, we sought to establish physiologically based pharmacokinetic (PBPK) models, in vitro-in vivo relationship (IVIVR), and VBE models for enteric-coated omeprazole capsules, to establish a clinically-relevant dissolution specification (CRDS) for screening BE and non-BE batches, and to ultimately develop evaluation criteria for generic omeprazole enteric-coated capsules. To establish omeprazole's IVIVR based on the PBPK model, we explored its in vitro dissolution conditions and then combined in vitro dissolution profile studies with in vivo clinical trials. The predicted omeprazole pharmacokinetics (PK) profiles and parameters closely matched the observed PK data. Based on the VBE results, the bioequivalence study of omeprazole enteric-coated capsules required at least 48 healthy Chinese subjects. Based on the CRDS, the capsules' in vitro dissolution should not be < 28%-54%, < 52%, or < 80% after two, three, and six hours, respectively. Failure to meet these dissolution criteria may result in non-bioequivalence. Here, PBPK modeling and IVIVR methods were used to bridge the in vitro dissolution of the drug with in vivo PK to establish the BE safety space of omeprazole enteric-coated capsules. The strategy used in this study can be applied in BE studies of other BCS II generics to obtain biological exemptions and accelerate drug development.
期刊介绍:
The AAPS Journal, an official journal of the American Association of Pharmaceutical Scientists (AAPS), publishes novel and significant findings in the various areas of pharmaceutical sciences impacting human and veterinary therapeutics, including:
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