Nanoscale agents of diverse physicochemical compositions have demonstrated transformative potential in the diagnosis and treatment of brain tumors, bridging the gap between bench research and clinical application. By enabling precise imaging, targeted delivery, and real-time therapeutic monitoring, nanotechnology offers a multifaceted platform for advancing personalized neuro-oncology. Further interdisciplinary research, standardization of preclinical protocols, and carefully designed clinical trials will be vital in translating these advances into tangible clinical benefits. Nanoparticle-based theranostics are poised to redefine the therapeutic landscape of brain tumors moving from broad cytotoxicity toward targeted, adaptive, and patient-centered treatment paradigms.
Shevtsov et al. (Sat,) studied this question.