用无定形固体分散技术解决研发阶段的药物制剂问题

Devika Tripathi, Manjunatha Prabhu B.H, Jagannath Sahoo, Jyoti Kumari
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引用次数: 0

摘要

无定形固体分散体(ASDs)确实彻底改变了制药工业,特别是在药物溶解性增强方面。药物的无定形状态是一种高能亚稳态,可导致药物表观溶解度的增加。这是由于缺乏长程分子序,这导致更高的分子迁移率和自由度,从而具有更高的溶解度。ASD制备的成功取决于合适的辅料的选择,特别是聚合物在药物溶解度和物理稳定性中起着至关重要的作用。然而,asd由于其热力学不稳定性或重结晶倾向而面临挑战。测量活性药物成分(API)的结晶度和药物溶解度是一个复杂的过程,需要对药物-聚合物的混溶性和分子相互作用有透彻的了解。因此,在制备、储存和应用过程中密切监测药物固体是很重要的。固态核磁共振(ssNMR)、衰减全反射傅里叶变换红外光谱(ATR-FTIR)、拉曼光谱和介电光谱等技术已经成功地理解了药物结晶的机制。此外,载药ASD的连续下游加工引入了新的自动化方法,以实现一致的ASD生产。先进的技术,如射熔挤出,KinetiSol,电喷涂和静电纺丝已经得到普及。本文综述了用于口服给药的非晶固体分散体(ASDs)的研究进展。它强调了在配方过程中面临的关键挑战,制造变量的影响,药物-聚合物相互作用的理论方面,以及与药物-聚合物混相相关的因素。asd已被认为是一种很有前途的策略,可以提高低水溶性药物的口服生物利用度。然而,由于ASD系统的复杂性,基于ASD的药物产品的成功开发并不简单。配方和工艺参数对最终产品的性能有显著影响。了解asd中药物和聚合物之间的相互作用对于预测其稳定性和性能至关重要。
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Navigating the Solution to Drug Formulation Problems at Research and Development Stages by Amorphous Solid Dispersion Technology
Amorphous Solid Dispersions (ASDs) have indeed revolutionized the pharmaceutical industry, particularly in drug solubility enhancement. The amorphous state of a drug, which is a highenergy metastable state, can lead to an increase in the apparent solubility of the drug. This is due to the absence of a long-range molecular order, which results in higher molecular mobility and free volume, and consequently, higher solubility. The success of ASD preparation depends on the selection of appropriate excipients, particularly polymers that play a crucial role in drug solubility and physical stability. However, ASDs face challenges due to their thermodynamic instability or tendency to recrystallize. Measuring the crystallinity of the active pharmaceutical ingredient (API) and drug solubility is a complex process that requires a thorough understanding of drug-polymer miscibility and molecular interactions. Therefore, it is important to monitor drug solids closely during preparation, storage, and application. Techniques such as solid-state nuclear magnetic resonance (ssNMR), attenuated total reflectance Fourier transform infrared spectroscopy (ATR-FTIR), Raman spectroscopy, and dielectric spectroscopy have been successful in understanding the mechanism of drug crystallization. In addition, the continuous downstream processing of drug-loaded ASDs has introduced new automated methods for consistent ASD production. Advanced techniques such as hot melt extrusion, KinetiSol, electro spraying, and electrospinning have gained popularity. This review provides a comprehensive overview of Amorphous Solid Dispersions (ASDs) for oral drug delivery. It highlights the critical challenges faced during formulation, the impact of manufacturing variables, theoretical aspects of drug-polymer interaction, and factors related to drug-polymer miscibility. ASDs have been recognized as a promising strategy to improve the oral bioavailability of poorly water-soluble drugs. However, the successful development of an ASD-based drug product is not straightforward due to the complexity of the ASD systems. The formulation and process parameters can significantly influence the performance of the final product. Understanding the interactions between the drug and polymer in ASDs is crucial for predicting their stability and performance.
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