Enhancing Chordoma Radiotherapy: Ta@PVP Nanoparticles as Potent Radiosensitizers

Surgical resection and high-dose radiotherapy constitute the standard therapeutic approaches for chordoma. However, the efficacy of radiotherapy is often compromised by the tumor microenvironment's hypoxic conditions, which confer radiation resistance, and by the potential damage to adjacent spinal cord and neural structures from elevated radiation doses. To address these challenges, we employed high biocompatible poly(vinylpyrrolidone)-modified tantalum nanoparticles (Ta@PVP NPs) as a potent radiosensitizer to augment the radiotherapy sensitivity of chordoma. Upon exposure to X-ray irradiation, Ta@PVP NPs demonstrated the capability to efficiently deposit X-ray radiation energy within the tumor microenvironment, subsequently generating reactive oxygen species (ROS) that induce oxidative stress in the tumor. Both in vitro and in vivo experiments revealed that Ta@PVP NPs significantly enhanced the cytotoxic effects of X-ray, thereby markedly inhibiting the proliferation of chordoma cells and impeding tumor growth. This study explored the radiosensitization potential of Ta@PVP NPs in the context of chordoma, highlighting the application of radiosensitizers as a promising strategy to augment the efficacy of chordoma radiotherapy.