Highly uniform and stable cerasomal microcapsule with good biocompatibility for drug delivery.

Efforts to improve the stability of liposomes have recently led to the development of organic-inorganic liposomal cerasomes. However, the uncontrollable size of cerasomes has greatly limited their biomedical applications. In this study, a novel strategy was introduced to fabricate hybrid liposomal cerasomes with high stability and uniform size. The hybrid lipids were first deposited onto CaCO3 microspheres through electrostatic interactions and self-assembly, and then the CaCO3 core was removed to obtain hollow microcapsules, i.e. the cerasomes. The species of the lipid oligomers was detected by MALDI-TOF-MS, which demonstrates the existence of siloxane network on microcapsules' surface. Anticancer drug doxorubicin hydrochloride (DOX) loaded cerasomal microcapsule (DLCM) exhibited an initial burst release behavior followed by the sustained release and remarkably high stability towards surfactant solubilization and long term storage. The DLCM displayed a pH-dependent and sustained DOX release profile in vitro, which can be well explained using a well established mathematical model. Our results indicate that these novel cerasomal microcapsules have great potential to be applied as drug delivery system in cancer therapy.