Objective To investigate the value of indocyanine green fluorescence imaging in common bile duct reexploration. Methods The clinical data of 32 patients who underwent open common bile duct reexploration in the Affiliated Hospital of Southwest Medical University from January 2018 to December 2020 were collected retrospectively. All patients divided into the control group (conventional exploration group, 20 patients) and the fluorescence imaging group (using indocyanine green fluorescence imaging, 12 patients) according to the operational manner. The intraoperative and postoperative results of two groups were analyzed. Results The operative time [(165.2±6.9) min vs. (130.8±5.5) min], the time to find extrahepatic bile duct [(43.9±3.8) min vs. (23.1±4.1) min] and the amount of bleeding [(207.7±7.7) mL vs. (127.5±15.3) mL] in the control group were longer or more than those in the fluorescence imaging group (P<0.05). The incidence of postoperative infection in the control group [7 cases (35.0%) vs. 0 cases (0.0%)] and the length of hospital stay [(10.8±2.8) d vs. (7.1±1.3) d] were higher or longer than those in the fluorescence imaging group (P<0.05). There were no significant difference between the two groups in the incidence of postoperative bile fistula [6 cases (30.0%) vs. 2 cases (16.7%)] and the incidence of residual stones [3 cases (15.0%) vs. 3 cases (25.0%), P>0.05]. Conclusion Indocyanine green fluorescence imaging appears to be a feasible, expeditious, useful, and effective imaging method while performing reexploration.
Objective The aim of this article is to verify the clinical effect of the near-infrared fluorescent liver cancer surgery projection navigation system without display screen. Methods Three patients who need to undergo open hepatectomy for liver cancer in the Affiliated Hospital of Southwest Medical University from March 2021 to May 2021 were included, verifying the accuracy, stability, and time delay effect of the self-developed near-infrared fluorescence projection navigation system for the location of tumor in surgeries. Results The intraoperative tumor location could be accurately displayed by the near-infrared fluorescence projection system and there was no significant difference between the location of the tumor displayed by intraoperative ultrasound. The tumor location displayed by the near-infrared fluorescence projection system was not influenced by the tumor movement and had no visual-time delay. Postoperative pathology confirmed that the projection range was consistent with the tumor range. Conclusion This near-infrared fluorescence projection technology innovates the intraoperative tumor imaging mode and can accurately navigate open hepatectomy in small sample trials, and it is expected to achieve wide clinical application through subsequent iterative optimization and verification.