BackgroundOptical imaging (OI) techniques such as bioluminescence and fluorescence imaging have been widely used to track diseases in a non-invasive manner within living subjects. These techniques generally require bioluminescent and fluorescent probes. Here we demonstrate the feasibility of using radioactive probes for in vivo molecular OI.Methodology/Principal FindingsBy taking the advantages of low energy window of light (1.2–3.1 eV, 400–1000 nm) resulting from radiation, radionuclides that emit charged particles such as β+ and β− can be successfully imaged with an OI instrument. In vivo optical images can be obtained for several radioactive probes including 2-deoxy-2-[18F]fluoro-D-glucose ([18F]FDG), Na18F, Na131I, 90YCl3 and a 90Y labeled peptide that specifically target tumors.Conclusions/SignificanceThese studies demonstrate generalizability of radioactive OI technique. It provides a new molecular imaging strategy and will likely have significant impact on both small animal and clinical imaging.
A new method to illuminate quantum dots (QDs) by radiation luminescence as an internal light source is reported. The excited QDs can produce fluorescence for both in vitro and in vivo imaging. This study provides an alternate strategy for the design of self‐illuminated optical imaging agents. Radiation‐luminescence‐excited QDs can also be readily adapted for dual‐modality imaging.
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