AIM: The aim of this study was to develop a new phospholipid complex self-emulsifying drug delivery system (PC-SEDDS) to enhance bioavailability of oral etoposide, a drug with poor water solubility. METHODS: Etoposide-phospholipid complex (EPC) was prepared by reacting etoposide and phospholipid in tetrahydrofuran and confirmed as a phospholipid compound by differential scanning calorimetry (DSC). Solubility of EPC and etoposide was determined in various vehicles. Pseudoternary phase diagrams were constructed to identify the efficient self-emulsification region of EPC-SEDDS, and the effects of oil concentration, drug loading, and aqueous media on droplet size were investigated. RESULTS: The optimal formulation of EPC-SEDDS was EPC:octyl and decyl monoglyceride (ODO):Cremopher EL:PEG-400 (1:20:48:32) (w/w/w/w). Compared with etoposide-phospholipid complex suspension (EPCS) and etoposide suspension (ES), cumulative release of etoposide from EPC-SEDDS increased by 1.31 and 2.65 fold at 24 hours, respectively. Compared with ES, relative bioavailability of EPC-SEDDS, E-SEDDS, and EPCS after oral administration in rats was enhanced by 60.21-, 44.9-, and 8.44- fold, respectively. CONCLUSIONS: The synergistic effect between PC and SEDDS contributed to the enhanced bioavailability of etoposide. It was concluded that PC-SEDDS proved to be a potential system for delivering orally administered hydrophobic compounds including etoposide.
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机译:目的:本研究的目的是开发一种新的磷脂复合物自乳化药物递送系统(PC-SEDDS),以提高水溶性不良的口服依托泊苷的生物利用度。方法:将依托泊苷与磷脂在四氢呋喃中反应制得依托泊苷-磷脂复合物(EPC),并通过差示扫描量热法(DSC)确认为磷脂化合物。在各种载体中测定了EPC和依托泊苷的溶解度。建立了伪三元相图,以识别EPC-SEDDS的有效自乳化区域,并研究了油浓度,载药量和水性介质对液滴尺寸的影响。结果:EPC-SEDDS的最佳配方为EPC:辛基和癸基单甘油酯(ODO):Cremopher EL:PEG-400(1:20:48:32)(w / w / w / w)。与依托泊苷-磷脂复合物悬浮液(EPCS)和依托泊苷悬浮液(ES)相比,依托泊苷从EPC-SEDDS的累积释放在24小时分别增加了1.31倍和2.65倍。与ES相比,大鼠口服EPC-SEDDS,E-SEDDS和EPCS的相对生物利用度分别提高了60.21-,44.9-和8.44-倍。结论:PC和SEDDS之间的协同作用有助于提高依托泊苷的生物利用度。结论是,PC-SEDDS被证明是用于输送口服给药的包括依托泊苷的疏水性化合物的潜在系统。
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