A Biliary Tract-Specific Near-Infrared Fluorescent Dye for Image-Guided Hepatobiliary Surgery.
Michael P LucianoJung-Man NamgoongRoger R NaniSo-Hyun NamChoonghee LeeIl Hyung ShinMartin J SchnermannJaepyeong ChaPublished in: Molecular pharmaceutics (2019)
Despite advances, visual inspection, palpation, and intraoperative ultrasound remain the most utilized tools during surgery today. A particularly challenging issue is the identification of the biliary system due to its complex architecture partially embedded within the liver. Fluorescence guided surgical interventions, particularly using near-infrared (NIR) wavelengths, are an emerging approach for the real-time assessment of the hepatobiliary system. However, existing fluorophores, such as the FDA-approved indocyanine green (ICG), have significant limitations for rapid and selective visualization of bile duct anatomy. Here we report a novel NIR fluorophore, BL (Bile Label)-760, which is exclusively metabolized by the liver providing high signal in the biliary system shortly after intravenous administration. This molecule was identified by first screening a small set of known heptamethine cyanines including clinically utilized agents. After finding that none of these were well-suited, we then designed and tested a small series of novel dyes within a prescribed polarity range. We validated the molecule that emerged from these efforts, BL-760, through animal studies using both rodent and swine models employing a clinically applicable imaging system. In contrast to ICG, BL-760 fluorescence revealed a high target-to-background ratio (TBR) of the cystic duct relative to liver parenchyma 5 min after intravenous injection. During hepatic resection surgery, intrahepatic ducts were clearly highlighted, and bile leakage was easily detected. In conclusion, BL-760 has highly promising properties for intraoperative navigation during hepatobiliary surgery.
Keyphrases
- minimally invasive
- coronary artery bypass
- fluorescence imaging
- surgical site infection
- photodynamic therapy
- single molecule
- high dose
- magnetic resonance
- fluorescent probe
- patients undergoing
- high resolution
- physical activity
- computed tomography
- mass spectrometry
- percutaneous coronary intervention
- drug release
- drug delivery
- single cell
- contrast enhanced
- highly efficient
- aqueous solution
- sensitive detection
- clinical evaluation