Gas filled nanobubbles are fabricated by surface-engineered progress with forming folate-mediated, gadolinium (Gd3+)-labelled and IR-780/5-FU loaded hollow structures. The nanobubbles progress capacity of NIR-/MR-/US-imaging in vitro. Importantly, the nanobubbles present charge-switchable behaviors when pH values changed from 7.4 to 5.0 and demonstrate pH-/light-sensitive drug release behaviors. Coupled with FA-targeting, the nanobubbles can be employed for efficient tri-modal imaging in vivo with selective tumor accumulation, long tumor retention time, and present enhanced anti-tumor activity with combined chemo-/photothermal therapy. Therefore, nanobubbles can act as excellent nanocarriers for active tumor targeting theranostics.
- Tianliang Li
- Jia Zhou
- Daxiang Cui
