Methods: Between September 2013 and February 2020, the first 68 consecutive patients (28 males, 40 females; median age: 71 years; range, 33 to 86 years) who were operated for lung malignancies and scheduled for robot-assisted thoracoscopic lobectomy were retrospectively analyzed. The characteristics of the patients and operative data were analyzed, and the operation times of the first 51 cases of video-assisted thoracoscopic lobectomy were compared with those of robot-assisted thoracoscopic lobectomy performed by a single surgeon.
Results: Of the patients, 62 had primary lung cancer and six had metastatic lung tumors. The majority of primary lung cancer patients (87.1%) had an adenocarcinoma. The most common clinical stage was IA1 (30.9%). There was no emergent conversion to thoracotomy in any of the patients. The median operation time was 223.5 min, and console time was 151 min. The most common complication was an air leak. All patients were alive. Compared to video-assisted thoracoscopic lobectomy, the median operation time was significantly longer in the robot-assisted thoracoscopic lobectomy group (p=0.0002). Similar to the operation time learning curve of the video-assisted thoracoscopic surgery group, the operation time learning curve of the robotassisted thoracoscopic surgery group increased from the first to ninth case (Phase 1), plateaued from the 10th t o 14th c ase ( Phase 2 ), and decreased from the 15th case (Phase 3). There was a statistically significant decrease in the operation time between Phase 1 and Phase 3 (p=0.0063).
Conclusion: The results of robot-assisted thoracoscopic lobectomy by a single surgeon show that this surgery has a longer operation time, but the perioperative outcomes are satisfactory. The learning curve of this surgery may be gradual for experienced video-assisted thoracoscopic surgeons.