Intersegmental plane simulation based on the bronchus-vein-artery triad in pulmonary segmentectomy

BACKGROUND: Few reliable methods to simulate and evaluate the intersegmental plane have been reported. We introduce intersegmental plane simulation based on the bronchus-vein-artery triad in three-dimensionally reconstructed images from patients who underwent segmentectomy for early lung cancer. METHODS: We collected clinical data of consecutive patients with early-stage lung cancer who underwent three-dimensional imaging-guided single-port thoracoscopic segmentectomy at Department No. 1 of Thoracic Surgery at Fujian Medical University Fujian Union Hospital from January 2019 to July 2019. Patients were divided into two groups according to the application of intersegmental plane simulation and nodule analysis: the intersegmental plane group and the non-intersegmental plane group. General clinical characteristics, operation status, and postoperative recovery were compared between groups. The three-dimensional reconstruction results in the intersegmental plane group were analyzed and summarized. RESULTS: A total of 120 patients were included (61 in the intersegmental plane group and 59 in the non-intersegmental plane group). There were no significant differences between the two groups in general characteristics (all P>0.05). All target lesions were resected in both groups. There were no significant differences between groups in operation characteristics or postoperative recovery, with the exception of the duration of chest drainage and the rate of gross margin insufficiency. There were five cases of gross margin insufficiency in the non-intersegmental plane group. With three-dimensional imaging reconstruction, a total of 131 intersegmental veins could be used to evaluate the simulated intersegmental plane in 61 patients, with an average of 2.1±0.5 veins per patient. Two patients (3.3%) had one vein that could be used to evaluate the intersegmental plane, 50 patients (82.3%) had two, seven patients (11.3%) had three, and two patients (3.3%) had four. The total number of intersegmental veins located on the simulated intersegmental plane was 124 (94.7%), with an average of 2.0±0.6 veins per patient. The accuracy of intersegmental plane simulation was 91.8% (56/61). CONCLUSIONS: The bronchus-vein-artery triad in intersegmental plane simulation can assist surgeons in preoperative planning and can facilitate complete resection of early lung cancer with sufficient surgical margins.