Background: Though lipiodol formulations are major options in transcatheter arterial chemoembolization (TACE) of advanced unresectable hepatocellular carcinoma (HCC) in the clinic, their application is severely limited by insufficient physical stability between the hydrophobic lipiodol and hydrophilic drugs; thus, most chemotherapeutic drugs are quickly released into systemic circulation resulting in poor therapeutic outcomes and serious side effects. Methods: The typical hydrophilic drug doxorubicin hydrochloride (DOX) was prepared as a pure nanomedicine and then stably and homogeneously dispersed in lipiodol (SHIFT&DOX) via slightly ultrasonic dispersion. The drug release profiles of SHIFT&DOX were defined in a decellularized liver model. In vivo therapeutic studies were performed in rat-bearing N1S1 orthotopic HCC models and rabbit-bearing VX2 orthotopic HCC models. Results: SHIFT&DOX features an ultrahigh homogeneous dispersibility over 21 days, which far surpassed typical Lipiodol-DOX formulations in clinical practice (less than 0.5 h). SHIFT&DOX also has excellent sustained drug release behavior to improve the local drug concentration dependence and increase the time dependence, leading to remarkable embolic and chemotherapeutic efficacy, and eminent safety in all of the orthotopic HCC models. Conclusions: The carrier-free hydrophilic drug nanoparticle technology-based lipiodol formulation provides a promising approach to solve the problem of drug dispersion in TACE with the potential for a translational pipeline.
Keywords: Embolic agent; Hepatocellular carcinoma; Homogeneous formulation; Theranostics; Transcatheter arterial chemoembolization.
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