去氨加压素口服自乳化药物传递系统的研发及体外评价
Development and in vitro evaluation of an oral SEDDS for desmopressin.
作者信息
Zupančič Ožbej, Leonaviciute Gintare, Lam Hung Thanh, Partenhauser Alexandra, Podričnik Snežana, Bernkop-Schnürch Andreas
机构信息
a Department of Pharmaceutical Technology , Institute of Pharmacy, Leopold-Franzens-University Innsbruck , Innsbruck , Austria/Europe and.
b Department of Pharmaceutical Technology , Faculty of Pharmacy, Can Tho University of Medicine and Pharmacy , Can Tho City , Vietnam.
出版信息
Drug Deliv. 2016 Jul;23(6):2074-83. doi: 10.3109/10717544.2016.1143056. Epub 2016 Feb 29.
CONTEXT
Self-emulsifying drug delivery systems (SEDDS) are among most promising tools for improving oral peptide bioavailability.
OBJECTIVE
In this study, in vitro protective effect of SEDDS containing desmopressin against presystemic inactivation by glutathione and α-chymotrypsin was evaluated.
MATERIALS AND METHODS
The partitioning coefficient (log P) of desmopressin was increased via hydrophobic ion pairing using anionic surfactants. Solubility studies were performed to select the appropriate solvents for SEDDS preparation. Subsequently, droplet size and emulsification properties of 22 SEDDS formulations were evaluated. Moreover, the peptide-surfactant complex was dissolved in two chosen SEDDS formulations. Finally, SEDDS containing desmopressin were characterized regarding lipase stability, toxicity, and in vitro protective effect toward glutathione and α-chymotrypsin.
RESULTS
Desmopressin log P was increased from initial -6.13 to 0.33 using sodium docusate. The resulting desmopressin docusate complex (DES/AOT) was incorporated in two different SEDDS formulations, containing Capmul 907 P as main solvent. DES/AOT-SEDDS-F4 (containing 0.07% w/w DES/AOT) was composed of 50% Capmul 907P, 40% Cremophor RH40, and 10% Transcutol. The comparatively more hydrophilic formulation DES/AOT-SEDDS-F15 (containing 0.25% w/w DES/AOT) consisted of 20% Capmul 907P, 40% Acconon MC8-2, and 40% Tween 20. Both formulations were stable toward digestion by lipase and protected desmopressin toward α-chymotrypsin degradation. Moreover, DES/AOT-SEDDS-F4 also protected the peptide from thiol/disulfide exchange reactions with glutathione and was not cytotoxic at a concentration of 0.375% (w/w).
CONCLUSION
DES/AOT-SEDDS-F4 protected desmopressin from in vitro glutathione and α-chymotrypsin degradation. DES/AOT-SEDDS-F4 was metabolically stable and nontoxic. Therefore, it could be considered as a potential delivery system for oral desmopressin administration.
背景
自乳化药物递送系统(SEDDS)是提高口服肽生物利用度最具前景的工具之一。
目的
本研究评估了含去氨加压素的SEDDS对谷胱甘肽和α-胰凝乳蛋白酶的体外前体失活保护作用。
材料与方法
通过使用阴离子表面活性剂进行疏水离子对作用来提高去氨加压素的分配系数(log P)。进行溶解度研究以选择制备SEDDS的合适溶剂。随后,评估了22种SEDDS制剂的液滴大小和乳化性能。此外,将肽-表面活性剂复合物溶解在两种选定的SEDDS制剂中。最后,对含去氨加压素的SEDDS进行了脂肪酶稳定性、毒性以及对谷胱甘肽和α-胰凝乳蛋白酶的体外保护作用表征。
结果
使用多库酯钠使去氨加压素的log P从初始的-6.13增加到0.33。所得的去氨加压素多库酯复合物(DES/AOT)被纳入两种不同的SEDDS制剂中,以Capmul 907 P作为主要溶剂。DES/AOT-SEDDS-F4(含0.07% w/w DES/AOT)由50% Capmul 907P、40% Cremophor RH40和10% Transcutol组成。亲水性相对更强的制剂DES/AOT-SEDDS-F15(含0.25% w/w DES/AOT)由20% Capmul 907P、40% Acconon MC8-2和40%吐温20组成。两种制剂对脂肪酶消化均稳定,并保护去氨加压素免受α-胰凝乳蛋白酶降解。此外,DES/AOT-SEDDS-F4还保护该肽免受与谷胱甘肽的硫醇/二硫键交换反应影响,且在浓度为0.375%(w/w)时无细胞毒性。
结论
DES/AOT-SEDDS-F4保护去氨加压素免受体外谷胱甘肽和α-胰凝乳蛋白酶降解。DES/AOT-SEDDS-F4代谢稳定且无毒。因此,它可被视为口服去氨加压素给药的潜在递送系统。
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