Simultaneous tumor identification, cholangiography, and securing surgical margin for recurrence of hepatocellular carcinoma using the Medical Imaging Projection System

Indocyanine green (ICG) fluorescence-guided surgery is a real-time navigation technology for tumor detection, securing surgical margins, segmentation mapping, and cholangiography in liver surgery [1]. According to recent reports, the Medical Imaging Projection System (MIPS) may be a useful new real-time navigation technology for open anatomical liver resection [2]. However, the efficacy of MIPS for tumor identification, cholangiography, and securing surgical margins is uncertain. In this report, we introduce MIPS-assisted liver resection for real-time navigation during simultaneous tumor identification, cholangiography, and securing surgical margins. A 76-year-old man presented with a 30 × 30 mm recurrent hepatocellular carcinoma on the transection plane after right anterior sectionectomy. Eight radiofrequency ablations were performed after the first hepatectomy. Preoperative computed tomography and three-dimensional simulation revealed a tumor near the posterior Glissonean branch. One day before surgery, 2.5 mg/body ICG was administered. We analyzed whether MIPS could simultaneously facilitate tumor identification, cholangiography, and securing surgical margins. The relationship between fluorescent imaging and the surgical margin was evaluated with a fluorescent microscope [3]. Simultaneous tumor identification, cholangiography, and securing the surgical margins were demonstrated by adjusting the image projection of MIPS, and R0 resection was achieved without biliary injury (Figs. 1 and 2). The operative time and estimated blood loss were 287 minutes and 394 mL, respectively. He was discharged on postoperative day 12 without any complications. MIPS could be useful for real-time navigation for tumor identification, cholangiography, and securing surgical margins during liver surgery. The threshold of fluorescent intensity should be set for optimal image projection. •MIPS can provide an optical surgical field by adjusting image projection.•This video demonstrates the efficacy of MIPS in tumor identification, cholangiography, and securing the surgical margins.•MIPS provides continuous ICG-based comfortable imaging during open liver resection for surgeons.