Long-term daily injection of progesterone for the treatment of threatened abortion can be a source of considerable pain to patients. To reduce the frequency of injections and improve patient compliance, a novel injectable phospholipid-based phase separation gel (PPSG) was prepared using small molecular materials such as phospholipids, medium-chain triglycerides (MCTs), and ethanol. Progesterone was loaded into PPSGs to promote rapid gel formation in situ via a sol-gel transformation mechanism, thereby achieving a sustained controlled release. Furthermore, progesterone was distributed in the oil-water interface layer and within the oil phase. Solvent exchange drives phase transitions, and phospholipid vesicle formation and rupture are likely to promote drug release and gel degradation. At a drug loading of 140 mg/mL, a progesterone release of up to 60% could be reached within 9 days according to the release curve in vitro. Pharmacokinetic studies demonstrated that the progesterone-loaded PPSGs released the drug continuously for over 7 days, the half-life was eight times higher than that of progesterone oil solution, and relative bioavailability of up to 184.90% was obtained. Collectively, the sustained release properties for hydrophobic cargos would effectively enhance patient compliance. Moreover, PPSGs are promising drug delivery systems that have high market value and biosafety given the readily accessible and safe excipients.
Keywords: in situ-forming gel; pharmacokinetics, phospholipid; progesterone; sustained release.
© 2022. The Author(s), under exclusive licence to American Association of Pharmaceutical Scientists.