Paclitaxel (PTX) is a widely used anticancer drug for ovarian cancer treatment, but its clinical application is limited by poor water solubility and dose-limiting toxicities. To overcome these challenges, we developed a thermoresponsive, multistep drug delivery system, pNIB/PTX, designed to improve PTX solubility and provide controlled drug release. The pNIB/PTX-3 complex exhibited an initial rapid drug release phase followed by sustained slow release, optimizing both short-term and long-term therapeutic efficacy. At physiological temperatures, the complex demonstrated a precisely controlled drug release mechanism driven by changes in the polymeric micelle structure. In vitro studies showed that pNIB/PTX-3 significantly enhanced therapeutic effects in human ovarian cancer cell lines HeyA8 and SKOV3ip1, compared to PTX alone. In orthotopic ovarian cancer mouse models, a single intraperitoneal injection of pNIB/PTX-3 led to a substantial reduction in tumor size and prolonged survival. This multistep, thermoresponsive delivery system shows strong potential as a promising therapeutic option for dose-dense ovarian cancer treatments, providing improved drug stability, controlled release, and minimized side effects.
Keywords: controlled drug release; ovarian cancer therapy; pNIB/PTX polymeric micelles; thermoresponsive drug delivery.