Abstract Glioblastoma (GBM) is one of the most aggressive and rapidly progressing brain tumors, characterized by a low survival rate, in part due to insufficient diagnostic tools. Computed tomography (CT), although widely available, is limited in use for GBM diagnosis by the suboptimal performance of current clinically approved contrast agents. This study focuses on the development of gold nanoparticle (AuNP)‐loaded polymersomes (AuPs) to improve the detection of GBM. We synthesized polyethylene glycol‐b‐polylactic acid (PEG‐b‐PLA) polymersomes with high AuNP loading. Increasing the concentrations of AuNPs in polymersomes resulted in enhanced contrast using clinical CT. Furthermore, AuPs bound to cell‐penetrating peptide TAT were cytocompatible with U87‐MG GBM cells at concentrations up to 100 mg/mL. Uptake studies using both fluorescence microscopy and flow cytometry confirmed the internalization of AuPs into GBM cells, with a direct correlation between AuP concentration and uptake efficiency. MicroCT imaging also confirmed a similar trend; >300% enhanced contrast compared to PBS controls was observed with increasing concentrations of AuPs and was maintained in vivo at 337–863 HU. Overall, these results demonstrate that a polymersome‐based system for AuNPs enhances CT image contrast, suggesting that this approach could be feasible for improving GBM detection via CT.
Barnett et al. (Tue,) studied this question.