Preparation of glyburide nanocrystals with improved dissolution properties by dry-ball- and wet-bead- milling: Systematic comparison by experimental design of the performance of the two methods

材料科学 溶解 球磨机 湿磨 粒径 结晶度 析因实验 化学工程 有孔小珠 复合材料 冶金 数学 统计 工程类
作者
P. Mura,Marzia Cirri,Alan Rossetti,Daniel A. Allemandi,Alejandro J. Paredes,Santiago Daniel Palma
出处
期刊:Journal of Drug Delivery Science and Technology [Elsevier BV]
卷期号:91: 105222-105222 被引量:7
标识
DOI:10.1016/j.jddst.2023.105222
摘要

The effectiveness of dry-ball and wet-bead nano-milling methods in producing nanocrystals of glyburide with increased dissolution rate has been compared. A full factorial design was applied to both methods to systematically evaluate the effect of the most critical factors (milling time, milling speed, ball/bead volume, drug amount) on the responses to be optimized (particle size and dissolution rate). Different experimental conditions were found to obtain the best results: the dry-method required to increase frequency and milling time and reduce ball volume and drug amount, while the wet-method to increase milling rate and drug amount and reduce bead volume and milling time. The results obtained under the respective optimal conditions evidenced a similar performance in nanocrystal production (120 and 180 nm for dry-ball and wet-bead milling, respectively) while a higher % dissolved at 10 min (28 vs 14 %) was found for the wet-method, principally ascribed to the presence, in this case, of the solubilizing polymer P188, added as stabilizer. Differently from the wet-method, the dry-method showed no direct relationship between particle size reduction and drug dissolution rate increase. Solid-state studies evidenced a role of the drug crystallinity loss, caused by the dry-milling, in affecting dissolution rate and proved the stability of the drug under both the milling processes.
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