Near-Infrared Optical Imaging of Protease Activity for Tumor Detection

Abstract

PURPOSE: To build and test an optical imaging system that is sensitive to near-infrared fluorescent molecular probes activated by specific enzymes in tumor tissues in mice. MATERIALS AND METHODS: The imaging system consisted of a source that delivered 610–650-nm excitation light within a lighttight chamber, a 700-nm longpass filter for selecting near-infrared fluorescence emission photons from tissues, and a charge-coupled device (CCD) for recording images. The molecular probe was a biocompatible autoquenched near-infrared fluorescent compound that was activated by tumor-associated proteases for cathepsins B and H. Imaging experiments were performed 0–72 hours after intravenous injection of the probe in nude mice that bore human breast carcinoma (BT-20). RESULTS: The imaging system had a maximal spatial resolution of 60 μm, with a field of view of 14 cm2. The detection threshold of the nonquenched near-infrared fluorescent dye was subpicomolar in the imaging phantom experiments. In tissue, 250 pmol of flu...