期刊
PHARMACEUTICS
卷 13, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/pharmaceutics13111865
关键词
solubility; permeability; solubilization; micellization; complexation
资金
- Russian Science Foundation
- Russian Science Foundation [19-13-00017] Funding Source: Russian Science Foundation
The study evaluated the poor solubility of new antifungal drug S-119 and the effectiveness of various excipients in improving its solubility. Pluronic F-127 and 6-O-Maltosyl-beta-CD were identified as the most effective solubilizing agents for S-119, with PVP showing the greatest increase in solubility in pH 7.4 solutions.
Poor solubility of new antifungal of 1,2,4-triazole class (S-119)-a structural analogue of fluconazole in aqueous media was estimated. The solubility improvement using different excipients: biopolymers (PEGs, PVP), surfactants (Brij S20, pluronic F-127) and cyclodextrins (alpha-CD, beta-CD, 2-HP-beta-CD, 6-O-Maltosyl-beta-CD) was assessed in buffer solutions pH 2.0 and pH 7.4. Additionally, 2-HP-beta-CD and 6-O-Maltosyl-beta-CD were proposed as promising solubilizers for S-119. According to the solubilization capacity and micelle/water partition coefficients in buffer pH 7.4 pluronic F-127 was shown to improve S-119 solubility better than Brij S20. Among biopolymers, the greatest increase in solubility was shown in PVP solutions (pH 7.4) at concentrations above 4 w/v%. Complex analysis of the driving forces of solubilization, micellization and complexation processes matched the solubility results and suggested pluronic F-127 and 6-O-Maltosyl-beta-CD as the most effective solubilizing agents for S-119. The comparison of S-119 diffusion through the cellulose membrane and lipophilic PermeaPad barrier revealed a considerable effect of the lipid layer on the decrease in the permeability coefficient. According to the PermeaPad, S-119 was classified as a highly permeated substance. The addition of 1.5 w/v% CDs in donor solution moves it to low-medium permeability class.
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