Systematic Development of Hot Melt Extrusion-Based Amorphous Solid Dispersion: Integrating Quality by Design and In Silico Modeling

IF 2.7 4区 医学 Q2 PHARMACOLOGY & PHARMACY
Anuj Kumar Fanda, Ajinkya Jadhav, Pushpendra S. Naruka, Dhwani Rana, Derajram Benival
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引用次数: 0

Abstract

Purpose

The study aimed to develop and optimize apremilast (APST) solid dispersion formulations using copovidone (Kollidon VA64) as the carrier and vitamin E TPGS as the surfactant to enhance solubility and dissolution, and to utilize in silico Physiologically Based Biopharmaceutics Modeling (PBBM) in GastroPlus to simulate the in vivo behaviour of the optimized formulation, predicting its potential for enhancing oral bioavailability.

Methods

Solid dispersion formulations of APST were prepared via the hot melt extrusion (HME) technique, utilizing copovidone (commercially known as Kollidon VA64) as the polymeric carrier. The selection of suitable polymeric carriers as well as surfactant was initially performed through phase solubility studies. The second-generation amorphous solid dispersion (ASD) was formulated with Kollidon VA64. Following this, the third-generation solid dispersions were engineered by choosing vitamin E TPGS as the surfactant carrier, a decision informed by comprehensive screening studies. The formulation of these batches employed a twin-screw configuration in the HME process. Design of Experiments (DoE) approach was utilized to ascertain the optimal ratio of drug: polymer: surfactant to achieve maximum solubility and dissolution enhancement. Drug release studies were conducted in 6.8 phosphate buffer solution. The developed formulations were subjected to a variety of characterization techniques to assess their properties. Stability studies were conducted for the final formulation over a period of up to three months.

Results

Based on the DoE studies, the optimized formulation was identified as APST with copovidone (Kollidon VA64) in a 1:5 ratio, supplemented with 3% vitamin E TPGS. Furthermore, PBBM in GastroPlus was utilized to simulate the in vivo behaviour of the optimized formulation.

Conclusion

The amorphous solid dispersion (ASD) of APST, developed via the HME technique, demonstrated a substantial enhancement in solubility, exhibiting an increase of up to 248-fold relative to the unprocessed drug over a 24-hour period. A noteworthy increase in the percentage of drug release during dissolution was observed in comparison to the pure drug. The observed improvements in solubility and dissolution were corroborated through PBBM in GastroPlus, thereby suggesting a viable strategy for enhancing the oral bioavailability of APST. This investigation effectively illustrates the formulation of a third-generation ASD of APST, significantly ameliorating its solubility and pharmacokinetic parameters, and indicating potential for industrial-scale manufacturing.

Abstract Image

Abstract Image

基于热熔挤出的非晶固体分散体的系统开发:设计质量与硅学建模相结合
目的 本研究旨在开发和优化阿普司特(APST)固体分散制剂,使用共聚维酮(Kollidon VA64)作为载体,维生素 E TPGS 作为表面活性剂,以提高溶解度和溶出度,并在 GastroPlus 中利用基于生理学的生物药剂学硅学建模(PBBM)模拟优化制剂的体内行为,预测其提高口服生物利用度的潜力。方法采用热熔挤出(HME)技术制备了阿普唑仑的固体分散制剂,并使用了共聚维酮(商用名称为 Kollidon VA64)作为聚合物载体。最初是通过相溶性研究来选择合适的聚合物载体和表面活性剂。第二代无定形固体分散体(ASD)是用 Kollidon VA64 配制的。随后,根据综合筛选研究的结果,选择维生素 E TPGS 作为表面活性剂载体,设计出了第三代固体分散体。这些批次的配方在 HME 工艺中采用了双螺杆配置。实验设计(DoE)方法用于确定药物:聚合物:表面活性剂的最佳比例,以实现最大的溶解度和溶解增强效果。药物释放研究在 6.8 磷酸盐缓冲溶液中进行。对所开发的制剂采用了多种表征技术来评估其特性。结果根据 DoE 研究,优化配方被确定为以 1:5 的比例添加 copovidone(Kollidon VA64)的 APST,并辅以 3% 的维生素 E TPGS。此外,还利用 GastroPlus 中的 PBBM 来模拟优化制剂在体内的表现。结论通过 HME 技术开发的 APST 无定形固体分散体(ASD)的溶解度大幅提高,与未加工的药物相比,24 小时内的溶解度提高了 248 倍。与纯药物相比,溶解过程中药物释放的百分比也有显著提高。GastroPlus 中的 PBBM 证实了所观察到的溶解度和溶出度的改善,从而表明这是一种提高 APST 口服生物利用度的可行策略。这项研究有效地说明了第三代 APST ASD 的配方,显著改善了其溶解度和药代动力学参数,并显示了工业规模生产的潜力。
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来源期刊
Journal of Pharmaceutical Innovation
Journal of Pharmaceutical Innovation PHARMACOLOGY & PHARMACY-
CiteScore
3.70
自引率
3.80%
发文量
90
审稿时长
>12 weeks
期刊介绍: The Journal of Pharmaceutical Innovation (JPI), is an international, multidisciplinary peer-reviewed scientific journal dedicated to publishing high quality papers emphasizing innovative research and applied technologies within the pharmaceutical and biotechnology industries. JPI''s goal is to be the premier communication vehicle for the critical body of knowledge that is needed for scientific evolution and technical innovation, from R&D to market. Topics will fall under the following categories: Materials science, Product design, Process design, optimization, automation and control, Facilities; Information management, Regulatory policy and strategy, Supply chain developments , Education and professional development, Journal of Pharmaceutical Innovation publishes four issues a year.
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