The booming development of nanomedicine offers great opportunities for cancer diagnostics and therapeutics. Herein, a magnetic targeting-enhanced cancer theranostic strategy using a multifunctional magnetic-plasmonic nano-agent is developed, and a highly effective in vivo tumor photothermal therapy, which is carefully planed based on magnetic resonance (MR)/photoacoustic (PA) multimodal imaging, is realized. By applying an external magnetic field (MF) focused on the targeted tumor, a magnetic targeting mediated enhanced permeability and retention (MT-EPR) effect is observed. While MR scanning provides tumor localization and reveals time-dependent tumor homing of nanoparticles for therapeutic planning, photoacoustic imaging with higher spatial resolution allows noninvasive fine tumor margin delineation and vivid visualization of three dimensional distributions of theranostic nanoparticles inside the tumor. Utilizing the near-infrared (NIR) plasmonic absorbance of those nanoparticles, selective photothermal tumor ablation, whose efficacy is predicted by real-time infrared thermal imaging intra-therapeutically, is carried out and then monitored by MR imaging for post-treatment prognosis. Overall, this study illustrates the concept of imaging-guided MF-targeted photothermal therapy based on a multifunctional nano-agent, aiming at optimizing therapeutic planning to achieve the most efficient cancer therapy.

• 出版日期2014-4
• 单位苏州大学