Magnetic-Powered Spora Lygodii Microrobots Loaded with Doxorubicin for Active and Targeted Therapy of Bladder Cancer.

Background And Purpose: Bladder cancer has high recurrence rates despite standard treatments, necessitating innovative therapeutic approaches. This study introduces magnetically powered microrobots utilizing Traditional Chinese Medicine (TCM) Spora Lygodii (SL) encapsulated with Doxorubicin (DOX) and FeO nanoparticles (Fe/DOX@SL) for targeted therapy.

Methods: FeO nanoparticles were synthesized via co-precipitation and combined with SL spores and DOX through dip-coating to form Fe/DOX@SL microrobots. Their propulsion was controlled by a rotating magnetic field (RMF) for precise delivery. The microrobots' mobility and adherence were assessed in various biological media. Therapeutic efficacy was evaluated using an orthotopic bladder cancer model in mice treated intravesically with Fe/DOX@SL under RMF guidance, compared to controls.

Results: Fe/DOX@SL microrobots demonstrated efficient movement and stable navigation in biological environments. In vivo experiments showed superior retention in the bladder, prolonged adherence to the mucosa, and significantly enhanced tumor suppression in the RMF-guided group. Bioluminescence imaging confirmed reduced tumor growth, and histological analysis revealed substantial tumor regression compared to other treatments.

Discussion And Conclusion: This study highlights the potential of integrating TCM with advanced microrobotics. The biocompatible Fe/DOX@SL microrobots leverage SL's therapeutic properties and fuel-free magnetic control to overcome challenges in bladder cancer treatment, such as poor drug retention and off-target toxicity. This novel platform represents a promising advancement in targeted cancer therapy. The innovative fusion of TCM and microrobotics introduces a potent, targeted therapeutic strategy for bladder cancer, paving the way for broader biomedical applications.