Doxorubicin-Loaded Mixed Micelles for the Effective Management of Skin Carcinoma: In Vivo Anti-Tumor Activity and Biodistribution Studies.

Abstract

Skin cancer is an alarming concern due to increased radiation and chemical exposure. Doxorubicin is a drug prescribed for various cancers by parenteral route. Apart from the pharmaceutical challenge of being a biopharmaceutical classification system (BCS) Class III drug, the side effects of doxorubicin are also a great concern. With an aim to enhance its safety and bioavailability, a phospholipid-based micellar system was developed. The developed nanometric and symmetric carriers not only offered substantial drug loading, but also offered a temporal drug release for longer durations. The pH-dependent drug release assured the spatial delivery at the target site, without loss of drug in the systemic circulation. The cancer cell toxicity studies along with the in vivo anti-tumor studies established the superior efficacy of the developedsystem. The blood profile studies and the biochemical estimations confirmed the safety of the developed nanocarriers. Lesser amount of drug was available for the microsomal degradation, as inferred by the biodistribution studies. The findings provide a proof of concept for the safer and effective doxorubicin delivery employing simple excipients like phospholipids for the management of skin cancer.