A Facile Ion-Doping Strategy To Regulate Tumor Microenvironments for Enhanced Multimodal Tumor Theranostics.
Jing BaiXiaodan JiaWenyao ZhenWenlong ChengXiue JiangPublished in: Journal of the American Chemical Society (2017)
Integration of multiple therapeutic/diagnostic modalities into a single system holds great promise to improve theranostic efficiency for tumors, but still remains a technical challenge. Herein, we report a new multimodal theranostic nanoconstruct based on Fe-doped polydiaminopyridine nanofusiforms, built easily and on a large scale, which can dual-regulate intracellular oxygen and glutathione levels, transport iron ions, and simultaneously be used for thermal imaging and magnetic resonance imaging. Co-loading of dihydroartemisinin and methylene blue generates a superior multifunctional theranostic agent with enhanced photochemotherapy efficiency and biodegradability, leading to almost complete destruction of tumors with near-infrared light irradiation. This represents an attractive route to develop multimodal anticancer theranostics.
Keyphrases
- photodynamic therapy
- quantum dots
- fluorescence imaging
- magnetic resonance imaging
- pain management
- metal organic framework
- high resolution
- highly efficient
- iron oxide
- visible light
- drug delivery
- computed tomography
- cancer therapy
- contrast enhanced
- big data
- chronic pain
- radiation induced
- gold nanoparticles
- artificial intelligence
- deep learning
- water soluble
- iron deficiency