Real-time intraoperative ureteral guidance using invisible near-infrared fluorescence.

Purpose: Invisible near-infrared light is safe and it penetrates relatively deeply through tissue and blood without altering the surgical field. Our hypothesis was that near-infrared fluorescence imaging would enable visualization of the ureteral anatomy and flow intraoperatively and in real time.Materials and Methods: CW800-CA (LI-COR, Lincoln, Nebraska), the carboxylic acid form of near-infrared fluorophore IRDye™ 800CW, was injected intravenously, and its renal clearance kinetics and imaging performance were quantified in 350 gm rats and 35 kg pigs. High performance liquid chromatography and electrospray time-of-flight mass spectrometry were used to characterize CW800-CA metabolism in urine. The clinically available near-infrared fluorophore indocyanine green was also used via retrograde injection into the ureter. Using the 2 near-infrared fluorophores the ureters were imaged under the conditions of steady state, intraluminal foreign bodies and injury.Results: In rat models the highest signal-to-backgr...