Sam-Youl Yoon1,2,3, Chang Min Lee4,5, Tae-Jin Song1,2, Hyung Joon Han1,2, Seonghan Kim6. 1. Department of Surgery, Korea University College of Medicine, Seoul, South Korea. 2. Department of Surgery, Korea University Medical Center Ansan Hospital, Ansan, Gyeonggi-do, South Korea. 3. Department of Surgery, Hallym University Medical Center, Anyang, Gyeonggi-do, South Korea. 4. Department of Surgery, Korea University College of Medicine, Seoul, South Korea. laparosamurai@gmail.com. 5. Department of Surgery, Korea University Medical Center Ansan Hospital, Ansan, Gyeonggi-do, South Korea. laparosamurai@gmail.com. 6. Department of Anatomy, Inje University College of Medicine, Busan, South Korea.
Abstract
BACKGROUND: Near-infrared fluorescence imaging has been recently applied in the field of hepatobiliary surgery. Our objective was to apply blue light fluorescence imaging to cholangiography and liver mapping during laparoscopic surgery. Therefore, we designed a preclinical study to evaluate the feasibility of using blue light fluorescence for cholangiography and liver mapping in a rat model. METHODS: Sodium fluorescein solution (1 mL to each individual) were administered intravenously to 20 male Sprague-Dawley rats (6 weeks old, 200-250 g), after laparotomy. Whole abdominal organs were observed under blue light (at a wavelength of 440-490 nm) emitted from a commercialized LED curing light. RESULTS: Immediately after the tracer solution was administered into the circulatory system of the rat, it was possible to visualize the location of the kidneys and the bile duct under blue light emitted from the light source. The liver was vaguely stained green by the tracer, while the ureters were not. After establishing biliary retention via duct clamping in the left lateral segment of the liver, the green color of the segment became distinct by the tracer, which showed vague coloration following release of the clamp. CONCLUSION: We established the preclinical basis for using blue light fluorescence cholangiography and liver mapping in this study. The clinical feasibility of these techniques during laparoscopic cholecystectomy and hepatectomy remained to be demonstrated.
BACKGROUND: Near-infrared fluorescence imaging has been recently applied in the field of hepatobiliary surgery. Our objective was to apply blue light fluorescence imaging to cholangiography and liver mapping during laparoscopic surgery. Therefore, we designed a preclinical study to evaluate the feasibility of using blue light fluorescence for cholangiography and liver mapping in a rat model. METHODS:Sodium fluorescein solution (1 mL to each individual) were administered intravenously to 20 male Sprague-Dawley rats (6 weeks old, 200-250 g), after laparotomy. Whole abdominal organs were observed under blue light (at a wavelength of 440-490 nm) emitted from a commercialized LED curing light. RESULTS: Immediately after the tracer solution was administered into the circulatory system of the rat, it was possible to visualize the location of the kidneys and the bile duct under blue light emitted from the light source. The liver was vaguely stained green by the tracer, while the ureters were not. After establishing biliary retention via duct clamping in the left lateral segment of the liver, the green color of the segment became distinct by the tracer, which showed vague coloration following release of the clamp. CONCLUSION: We established the preclinical basis for using blue light fluorescence cholangiography and liver mapping in this study. The clinical feasibility of these techniques during laparoscopic cholecystectomy and hepatectomy remained to be demonstrated.
Entities:
Keywords:
Blue light; Cholangiography; Fluorescence; Liver mapping; Sodium fluorescein
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