Bacteria-triggered tumor-specific thrombosis to enable potent photothermal immunotherapy of cancer.

We discovered that attenuated after intravenous injection would proliferate within various types of solid tumors but show rapid clearance in normal organs, without rendering notable toxicity. Bacteria-induced inflammation would trigger thrombosis in the infected tumors by destroying tumor blood vessels. Six types of tested tumors would all turn into darkened color with strong near-infrared absorbance, as observed by photoacoustic imaging.

Attenuated Salmonella typhimurium-mediated tumour targeting imaging based on peptides.

Attenuated bacteria-mediated tumor targeting diagnosis will provide a novel strategy for further cancer treatments owing to the intrinsic facultative anaerobic characteristic of bacteria and rapid proliferation in the tumor sites. In this work, we firstly investigate the in vivo behaviour of the attenuated Salmonella typhimurium (S. typhimuriumΔppGpp/lux) after intravenous injection.

X-rays-optimized delivery of radiolabeled albumin for cancer theranostics.

Exploiting the specific biological behaviors of the metabolizable nano-drugs assisted by X-rays exposure will be benefit for the optimization of radiotherapy-based combination therapy. Herein, Human serum albumin (HSA) nanoparticle, a familiar and metabolizable nanomaterial, is selected to investigate the changes of tumor accumulation and retention under X-rays exposure. Caveolin-1, an important protein which has positive correlation with cell uptake of nanomaterials, is expressed increasingly under X-rays exposure, resulting the enhanced cell uptake and prolonged tumor retention of HSA nanoparticles.

Plant-derived chlorophyll derivative loaded liposomes for tri-model imaging guided photodynamic therapy.

Plant-derived chlorophyll derivatives with a porphyrin ring structure and intrinsic photosynthesis have been widely used in biomedicine for cancer theranostics. Owing to their poor water solubility, chlorophyll derivatives are very difficult to use in biomedical applications. In this work, pyropheophorbide acid (PPa) (liposome/PPa) nanoparticles, a liposome-encapsulated chlorophyll derivative, are designed for tri-model imaging guided photodynamic therapy (PDT) of cancer.

Ultrasmall Hyperbranched Semiconducting Polymer Nanoparticles with Different Radioisotopes Labeling for Cancer Theranostics.

Exploiting ultrasmall nanoparticles as multifunctional nanocarriers labeled with different radionuclides for tumor theranostics has attracted great attention in past few years. Herein, we develop multifunctional nanocarriers based on ultrasmall hyperbranched semiconducting polymer (HSP) nanoparticles for different radionuclides including technetium-99m (Tc), iodine-131 (I), and iodine-125 (I) labeling. SPECT imaging of Tc labeled PEGylated HSP nanoparticles (HSP-PEG) exhibit a prominent accumulation in two-independent tumor models including subcutaneously xenograft and patient derived xenograft model.