Polymer source affects in vitro-in vivo correlation of leuprolide acetate PLGA microspheres

PLGA公司 体内 IVIVC公司 化学 体外 赋形剂 粒径 剂型 生物医学工程 生物物理学 色谱法 纳米技术 材料科学 聚合物 生物化学 溶解试验 有机化学 生物技术 乙基纤维素 物理化学 生物 医学
作者
Bo Wan,Quanying Bao,Ruifeng Wang,Diane J. Burgess
出处
期刊:International Journal of Pharmaceutics [Elsevier BV]
卷期号:625: 122032-122032 被引量:11
标识
DOI:10.1016/j.ijpharm.2022.122032
摘要

Poly(lactic-co-glycolic acid) PLGA (release controlling excipient) plays a dominant role on the performance of PLGA based long-acting parenterals. These types of drug products typically exhibit complex multi-phasic in vitro/in vivo release/absorption characteristics. In particular, owing to their large size, charged state, and hydrophilicity, peptide loaded microspheres can exhibit more complex release mechanisms. Accordingly, it is challenging to develop Level A in vitro-in vivo correlations (IVIVCs) for such complex long-acting parenterals. With the objective of gaining a better understanding of how to achieve IVIVCs for peptide loaded PLGA microspheres, formulations with similar as well as different release characteristics were prepared with PLGAs from different sources. Leuprolide acetate was selected as the model drug. Owning to the different physicochemical properties of the PLGAs (such as inherent viscosity, molecular weight and blockiness), the formulations exhibited significant differences in their critical quality attributes (such as particle size, porosity and pore size) and consequently had different in vitro and in vivo performance. Affirmative conventional IVIVCs were developed that were able to predict the in vivo performance using the corresponding in vitro release profiles. In addition, the developed conventional IVIVCs were able to discriminate between formulations with comparable in vitro/in vivo performance and those that had dissimilar in vitro/in vivo performance. The present work provides a comprehensive understanding of the influence of PLGA source variations on IVIVC development and predictability for peptide loaded PLGA microspheres.
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