31 research outputs found
Results of video-assisted thoracoscopic surgery for esophageal cancer during the induction period
金沢大å¦åŒ»å¦éƒ¨é™„属病院胃腸外科Objective. The attainment of proficiency in thoracoscopic radical esophagectomy for thoracic esophageal cancer requires much experience. We aimed to master this procedure safely with our regular surgical team members under the direction of an experienced surgeon. We evaluated the efficacy of instruction during the induction period and the significance of our results. Methods. We compared the results of 12 thoracic esophageal cancer patients who underwent thoracoscopic radical esophagectomy in our institution (group A) to those of the initial 17 patients who underwent the same operation at the director\u27s institution (group B). Results. We were able to perform complete thoracoscopic radical esophagectomies without any direction after experiencing 10 cases that were performed under adequate direction. The number of dissected lymph nodes and the duration of the procedure were similar in the two groups: 34 (22-53) vs. 26 (9-55) nodes, P = 0.23; and 327.5 (230-455) vs. 315 (190-515) min, P = 0.947, respectively. The amount of thoracic blood loss was significantly less in group A than in group B: 185 (110-380) g vs. 440 (110-2360) g, P = 0.0035. Postoperative pneumonia and atelectasis were observed in 25.0% of group A patients and in 17.6% of group B patients. The incidence of recurrent nerve palsy was 30.7% in group A and 11.7% in group B, but there was no statistically significant difference (P = 0.19). The morbidity rates in group A and group B were 41.6% and 29.4%, respectively (P = 0.694). Conclusion. Thoracoscopic radical esophagectomy can be mastered relatively quickly and safely under the direction of an experienced surgeon and a regular surgical team. © 2008 The Japanese Association for Thoracic Surgery
Learning of thoracoscopic radical esophagectomy: How can the learning curve be made short and flat?
金沢大å¦é™„属病院胃腸外科Attainment of proficiency in video-assisted thoracoscopic radical esophagectomy (VATS) for thoracic esophageal cancer requires much experience. We have mastered this procedure safely under the direction of an experienced surgeon. After adoption of the procedure, the educated surgeon directed induction of this surgical procedure at another institution. We evaluated the efficacy of instruction during the induction period by comparing the results at the two institutions in which VATS had been newly induced. We defined the induction period as the time from the beginning of VATS to the time when the last instruction was carried out. From January 2003 to December 2007, 53 patients were candidates for VATS at Kanazawa University (institution 1). Of these, 46 patients underwent curative VATS by a single operator. We divided this period into three parts: the induction period of VATS, post-induction period, and proficient period when the educated surgeon of institution 1 directed the procedure at Maebashi Red Cross Hospital (institution 2). At institution 1, 12 VATS were scheduled, and nine procedures (75%) (group A) including eight instructions were completed during the induction period (from January 2003 to August 2004). Thereafter, VATS was performed without instruction. In the post-induction period, nine VATS were scheduled, and eight procedures (88.8%) (group B) were completed from September 2004 to August 2005. Subsequently, 32 VATS were scheduled, and 29 procedures (90.6%) (group C) were completed during the proficient period (from September 2005 to December 2007). The surgeon at Maebashi Red Cross Hospital (institution 2) started to perform VATS under the direction of the surgeon who had been educated at institution 1 from September 2005. VATS was completed in 13 (76.4%) (group D) of 17 cases by a single surgeon including seven instructions during the induction period at institution 2 from September 2005 to December 2007. No lethal complication occurred during the induction period at both institutions. We compared the results of VATS among four groups from the two institutions. There were no differences in the background and clinicopathological features among the four groups. The number of dissected lymph nodes and amount of thoracic blood loss were similar in the four groups (35 [22-52] vs 41 [26-53] vs 32 [17-69] vs 29 [17-42] nodes, P = 0.139, and 170 [90-380] vs 275 [130-550] vs 220 [10-660] vs 210 [75-543] g, P = 0.373, respectively). There was no difference in the duration of the thoracic procedure during the induction period at the two institutions. However, the duration of the procedure was significantly shorter in the proficient period of institution 1 (group C: 266 [195-555] minutes) than in the induction period of both institutions (group A: 350 [280-448] minutes [P = 0.005] and group D: 345 [270-420] mL [P = 0.002]). There were no surgery-related deaths in any of the groups. The incidence of postoperative complications did not differ among the four groups. Thoracoscopic radical esophagectomy can be mastered quickly and safely with a flat learning curve under the direction of an experienced surgeon. The educated surgeon can instruct surgeons at another institution on how to perform thoracoscopic esophagectomy. The operation time of thoracoscopic surgery is shortened by experience. © 2010 Copyright the Authors. Journal compilation © 2010, Wiley Periodicals, Inc. and the International Society for Diseases of the Esophagus