School of Pharmacy, Institute of Clinical Sciences, University of Birmingham, Edgbaston, Birmingham, B15 2TT, UK.
Division of Quantitative Methods and Modelling, Office of Research and Standard, Office of Generic Drug Products, Center for Drug Evaluation and Research, United States Food and Drug Administration, Silver Spring, Maryland, 20993, USA.
AAPS J. 2023 Jun 29;25(4):67. doi: 10.1208/s12248-023-00826-1.
This study investigated the impact of gastro-intestinal fluid volume and bile salt (BS) concentration on the dissolution of carbamazepine (CBZ) immediate release (IR) 100 mg tablets and to integrate these in vitro biorelevant dissolution profiles into physiologically based pharmacokinetic modelling (PBPK) in pediatric and adult populations to determine the biopredictive dissolution profile. Dissolution profiles of CBZ IR tablets (100 mg) were generated in 50-900 mL biorelevant adult fasted state simulated gastric and intestinal fluid (Ad-FaSSGF and Ad-FaSSIF), also in three alternative compositions of biorelevant pediatric FaSSGF and FaSSIF medias at 200 mL. This study found that CBZ dissolution was poorly sensitive to changes in the composition of the biorelevant media, where dissimilar dissolution (F2 = 46.2) was only observed when the BS concentration was changed from 3000 to 89 μM (Ad-FaSSIF vs Ped-FaSSIF 50% 14 BS). PBPK modeling demonstrated the most predictive dissolution volume and media composition to forecast the PK was 500 mL of Ad-FaSSGF/Ad-FaSSIF media for adults and 200 mL Ped-FaSSGF/FaSSIF media for pediatrics. A virtual bioequivalence simulation was conducted by using Ad-FaSSGF and/or Ad-FaSSIF 500 mL or Ped-FaSSGF and/or Ped-FaSSIF 200 mL dissolution data for CBZ 100 mg (reference and generic test) IR product. The CBZ PBPK models showed bioequivalence of the product. This study demonstrates that the integration of biorelevant dissolution data can predict the PK profile of a poorly soluble drug in both populations. Further work using more pediatric drug products is needed to verify biorelevant dissolution data to predict the in vivo performance in pediatrics.
本研究考察了胃肠液体积和胆盐(BS)浓度对卡马西平(CBZ)速释(IR)100mg 片剂溶解的影响,并将这些体外生物相关溶解曲线整合到儿科和成人人群的基于生理学的药代动力学模型(PBPK)中,以确定生物预测性溶解曲线。在 50-900mL 生物相关成人空腹模拟胃液(Ad-FaSSGF 和 Ad-FaSSIF)中以及在 200mL 三种替代生物相关儿科 FaSSGF 和 FaSSIF 介质中生成了 CBZ IR 片剂(100mg)的溶解曲线。本研究发现,CBZ 溶解对生物相关介质组成的变化不太敏感,只有当 BS 浓度从 3000 变为 89μM 时(Ad-FaSSIF 与 Ped-FaSSIF 50%14BS)才观察到不同的溶解(F2=46.2)。PBPK 模型表明,预测 PK 最具预测性的溶解体积和介质组成是 500mL 的 Ad-FaSSGF/Ad-FaSSIF 介质用于成人,200mL 的 Ped-FaSSGF/FaSSIF 介质用于儿科。通过使用 Ad-FaSSGF 和/或 Ad-FaSSIF 500mL 或 Ped-FaSSGF 和/或 Ped-FaSSIF 200mL 溶解数据对 CBZ 100mg(参比和通用测试)IR 产品进行虚拟生物等效性模拟。CBZ PBPK 模型显示产品具有生物等效性。本研究表明,生物相关溶解数据的整合可以预测两种人群中难溶性药物的 PK 曲线。需要使用更多儿科药物产品进一步研究,以验证生物相关溶解数据以预测儿科体内性能。
