Pulmonary drug delivery of quercetin through scalable PEGylated mixed micelles of Gelucire® and Tetronic®.

Many potent anticancer agents suffer from poor water solubility, limiting their industrial translation into effective formulations. Although single micellar systems have been explored to address this issue, they often exhibit low stability and encapsulation efficiency. To overcome these limitations, this study developed and characterized PEG-based mixed micelles composed of Gelucire® 48/16 and Tetronic® 1304 (T1304), aiming to improve the solubilization and cytotoxicity of a model lung cancer drug, quercetin (QCT). The micelles were extensively analysed using cloud point (CP), small-angle neutron scattering (SANS), and high-performance liquid chromatography (HPLC) techniques. SANS confirmed that Gelucire® 48/16 formed spherical or ellipsoidal micelles depending on composition with T1304. Micellar growth and improved drug encapsulation are noticed in saline conditions through the salting-out effect. cytotoxicity studies in lung epithelial adenocarcinoma (A549) cells demonstrated that Gelucire® 48/16 micelles enhanced the cytotoxic effect of QCT, while T1304 provided controlled release, with the mixed system offering intermediate modulation. The results indicate that mixed micellar systems showed a potential cytotoxic effect increased ROS generation and DNA damage, ultimately damaging cancer cells. Additionally, our findings support a practical and commercially viable approach for enhancing the solubility and therapeutic efficacy of hydrophobic drugs, which can be further useful in various biomedical applications, such as healthcare formulations and drug delivery.