Application of hot melt extrusion in the solid dispersion preparation of hydrophobic drugs: Research advances / 国际药学研究杂志

Hot melt extrusion (HME) is an effective method to make the drugs form amorphous solid dispersions (ASD) inmicrostructure, through which we can improve the dissolution behavior so as to improve the bioavailability ofhydrophobic drugs This review mainly focuses on the. screening of active pharmaceutical ingredients and polymer carriers, feasibility evaluation of the technique, and the control of key parameters of preparation process, summarizes the application of HME to develop drug delivery system.

Application of hot melt extrusion in the solid dispersion preparation of hydrophobic drugs:research advances / 国际药学研究杂志

Hot melt extrusion (HME) is an effective method to make the drugs form amorphous solid dispersions (ASD) in microstructure, through which we can improve the dissolution behavior so as to improve the bioavailability of hydrophobic drugs. This review mainly focuses on the screening of active pharmaceutical ingredients and polymer carriers, feasibility evaluation of the technique, and the control of key parameters of preparation process, summarizes the application of HME to develop drug delivery system.

PLGA/PLA microparticulate system: A boon for hydrophobic drug delivery.

Controlling In-vitro drug release profiles for a system of PLGA/PLA microparticles encapsulating a hydrophobic drug. Challenges with the diversity of drug properties, microencapsulation methods, are evaluated with a focus on decreasing the time to lab-scale encapsulation of water-insoluble drug candidates in the drug development stage. The development of biodegradable microparticles systems that combined the beneficial properties of polymeric microparticles for hydrophobic drug delivery were reviewed here. Injectable biodegradable and biocompatible copolymers of lactic and glycolic acid are important advanced delivery system for week too month controlled release of hydrophobic drug (e.g., from biopharmaceutical classification system class IV), which often display poor oral bioavailability. Finally, three important properties affecting release behavior were identified as: polymer hydrophobicity, particle size and particle coating, . This review focuses on the microencapsulation of hydrophobic drugs, describes a variety of techniques for their preparation and analytics.