Department of Radiology, Seoul National University Hospital, Seoul, Korea.
Department of Radiology, Seoul National University College of Medicine, Seoul, Korea.
Korean J Radiol. 2021 May;22(5):706-713. doi: 10.3348/kjr.2020.0682. Epub 2020 Dec 21.
OBJECTIVE: To evaluate the impact of surgical simulation training using a three-dimensional (3D)-printed model of tetralogy of Fallot (TOF) on surgical skill development. MATERIALS AND METHODS: A life-size congenital heart disease model was printed using a Stratasys Object500 Connex2 printer from preoperative electrocardiography-gated CT scans of a 6-month-old patient with TOF with complex pulmonary stenosis. Eleven cardiothoracic surgeons independently evaluated the suitability of four 3D-printed models using composite Tango 27, 40, 50, and 60 in terms of palpation, resistance, extensibility, gap, cut-through ability, and reusability of. Among these, Tango 27 was selected as the final model. Six attendees (two junior cardiothoracic surgery residents, two senior residents, and two clinical fellows) independently performed simulation surgeries three times each. Surgical proficiency was evaluated by an experienced cardiothoracic surgeon on a 1-10 scale for each of the 10 surgical procedures. The times required for each surgical procedure were also measured. RESULTS: In the simulation surgeries, six surgeons required a median of 34.4 (range 32.5-43.5) and 21.4 (17.9-192.7) minutes to apply the ventricular septal defect (VSD) and right ventricular outflow tract (RVOT) patches, respectively, on their first simulation surgery. These times had significantly reduced to 17.3 (16.2-29.5) and 13.6 (10.3-30.0) minutes, respectively, in the third simulation surgery ( = 0.03 and = 0.01, respectively). The decreases in the median patch appliance time among the six surgeons were 16.2 (range 13.6-17.7) and 8.0 (1.8-170.3) minutes for the VSD and RVOT patches, respectively. Summing the scores for the 10 procedures showed that the attendees scored an average of 28.58 ± 7.89 points on the first simulation surgery and improved their average score to 67.33 ± 15.10 on the third simulation surgery ( = 0.008). CONCLUSION: Inexperienced cardiothoracic surgeons improved their performance in terms of surgical proficiency and operation time during the experience of three simulation surgeries using a 3D-printed TOF model using Tango 27 composite.
目的:评估使用三维(3D)打印法洛四联症(TOF)模型进行外科模拟训练对手术技能发展的影响。
材料与方法:使用 Stratasys Object500 Connex2 打印机,根据一名 6 月龄患有复杂肺动脉瓣狭窄的 TOF 患儿术前心电图门控 CT 扫描,打印出一个与真人等大的先天性心脏病模型。11 名心胸外科医生分别使用复合材料 Tango 27、40、50 和 60 对 4 个 3D 打印模型的触感、阻力、可拉伸性、间隙、切割能力和可重复使用性进行评估。其中 Tango 27 被选为最终模型。6 名参与者(2 名初级心胸外科住院医师、2 名高级住院医师和 2 名临床研究员)每人独立进行 3 次模拟手术。由一名经验丰富的心胸外科医生对 10 项手术中的每一项进行 1-10 分的手术熟练程度评估。还测量了每项手术所需的时间。
结果:在模拟手术中,6 名外科医生在第一次模拟手术中分别需要 34.4 分钟(范围 32.5-43.5)和 21.4 分钟(17.9-192.7)来应用室间隔缺损(VSD)和右心室流出道(RVOT)补丁。在第三次模拟手术中,这些时间分别显著减少至 17.3 分钟(16.2-29.5)和 13.6 分钟(10.3-30.0)(=0.03 和=0.01)。六位外科医生的 VSD 和 RVOT 补丁平均用时分别减少了 16.2 分钟(范围 13.6-17.7)和 8.0 分钟(1.8-170.3)。对 10 项手术的评分总和表明,参与者在第一次模拟手术中平均得分为 28.58±7.89 分,在第三次模拟手术中提高到 67.33±15.10 分(=0.008)。
结论:在使用 Tango 27 复合材料的 3D-TOF 模型进行三次模拟手术的经验中,不熟练的心胸外科医生在手术熟练程度和手术时间方面都有所提高。
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