包含实验级羟丙基甲基纤维素醋酸琥珀酸酯的热熔挤出无定形固体分散体的溶出-渗透

Dissolution-permeation of hot-melt extruded amorphous solid dispersion comprising an experimental grade of HPMCAS.

作者信息

Tanaka Hironori, Miyano Tetsuya, Ueda Hiroshi

机构信息

Formulation R&D Laboratory, Shionogi & Co., Ltd., Hyogo 660-0813, Japan.

Laboratory for Medicinal Chemistry Research, Shionogi & Co., Ltd., Osaka, 561-0825, Japan.

出版信息

ADMET DMPK. 2023 Jul 22;11(3):373-385. doi: 10.5599/admet.1586. eCollection 2023.

DOI:10.5599/admet.1586

PMID:37829323

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10567069/

Abstract

BACKGROUND AND PURPOSE

Physicochemical properties of an amorphous solid dispersion (ASD) comprising an experimental grade of hydroxypropyl methylcellulose acetate succinate (HPMCAS-MX) with lower glass transition temperature have been previously investigated. This study aimed to evaluate applicability of HPMCAS-MX to hot-melt extrusion (HME) and dissolution-permeation performance of prepared ASDs using MicroFLUX.

REVIEW APPROACH

A physical mixture of indomethacin (IMC) and HPMCAS-MX or -MG (a commercial grade with higher transition temperature) at 20:80 weight ratio was hot-melt extruded to prepare an ASD (IMC-MX and IMC-MG, respectively). The dissolution-permeation performance and the stability of the ASDs were measured.

KEY RESULTS

A torque reduction at 120 °C implied that IMC-MX transformed into an amorphous state at this temperature, but IMC-MG required around 170 °C. This result was supported by Raman mapping of the the HME samples. IMC-MG and IMC-MX remained in an amorphous state at 40 °C for three months. The initial dissolution rate and solubility of the ASDs were higher than that of crystalline IMC. The apparent permeability of IMC from IMC-MX and IMC-MG was comparable but was approximately two-fold higher than that from crystalline IMC.

CONCLUSION

HPMCAS-MX enabled HME process at a lower temperature and improved the dissolution-permeation performance of indomethacin.

摘要

背景与目的

先前已对包含具有较低玻璃化转变温度的实验级羟丙基甲基纤维素乙酸琥珀酸酯（HPMCAS-MX）的无定形固体分散体（ASD）的物理化学性质进行了研究。本研究旨在评估HPMCAS-MX在热熔挤出（HME）中的适用性以及使用MicroFLUX制备的ASD的溶解-渗透性能。

综述方法

将吲哚美辛（IMC）与HPMCAS-MX或-MG（具有较高转变温度的商业级产品）按重量比20:80的物理混合物进行热熔挤出，以制备ASD（分别为IMC-MX和IMC-MG）。测量了ASD的溶解-渗透性能和稳定性。

关键结果

在120°C时扭矩降低表明IMC-MX在此温度下转变为无定形状态，但IMC-MG需要约170°C。HME样品的拉曼映射支持了这一结果。IMC-MG和IMC-MX在40°C下保持无定形状态三个月。ASD的初始溶解速率和溶解度高于结晶IMC。来自IMC-MX和IMC-MG的IMC的表观渗透率相当，但比来自结晶IMC的表观渗透率高约两倍。

结论

HPMCAS-MX能够在较低温度下进行HME过程，并改善了吲哚美辛的溶解-渗透性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/76ac/10567069/ee599889994a/ADMET-11-1586-g001.jpg

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包含实验级羟丙基甲基纤维素醋酸琥珀酸酯的热熔挤出无定形固体分散体的溶出-渗透

Dissolution-permeation of hot-melt extruded amorphous solid dispersion comprising an experimental grade of HPMCAS.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

REVIEW APPROACH

KEY RESULTS

CONCLUSION

背景与目的

综述方法

关键结果

结论

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