RESUMEN
Nanomedicines have emerged as a promising approach for targeted therapeutic delivery and specifically as a beneficial alternative to conventional cancer therapies as they can deliver higher concentrations of chemotherapeutic agents at the tumour site compared to healthy tissue, thus providing improved drug efficacy and lower systemic toxicity. Long acting injectables are increasingly becoming the focus of pharmaceutical research, as they can reduce dosing frequency and improve the life quality of patients. Development of an in vitro release (IVR) method for modified release nanomedicines is challenging because of the uniqueness and range of different formulation design approaches, as well as the complex nature of drug release mechanisms which may result in inherent variability. Regulatory guidance on the development of dissolution or release methods for parenteral products is limited relative to oral products. This article details the extensive in vitro release method development work conducted on a polymeric nanoparticle to develop the release media composition and selection of suitable apparatus and sampling technique to separate the released drug from the formulation. The aim was to develop a suitably robust analytical method that generated clinically relevant in vitro release data.