Abstract
Small-molecular and macromolecular optical probes based on an iridium complex chromophore were designed for detecting hypoxic inflammation in this work. The optical probes had a large conjugated ligand that could extend its phosphorescence emission to the red-wavelength region, thus increasing the tissue penetration depth of the optical signal. Due to good water solubility, the macromolecular optical probe could image both monolayer cells and three-dimensional multicellular spheroids. Moreover, this macromolecular probe was able to effectively image inflammation and distinguish healthy and inflammatory regions in a mouse model of lipopolysaccharide (LPS)-induced inflammation with low background interference. Furthermore, we integrated the hydrophobic small-molecular probe into the polyurethane thin film, and the resulting film successfully monitored the inflammation of chronic wounds in a mouse model. This work demonstrated the great potential of the iridium complex in optical imaging hypoxia and hypoxia-associated inflammation and will have significant impact on the design of high-sensitivity sensors for the detection of hypoxia.
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