Cheung Carling L, Looi Thomas, Lendvay Thomas S, Drake James M, Farhat Walid A
Division of Neurosurgery, Department of Surgery, The Hospital for Sick Children, Toronto, Ontario, Canada; Centre for Image Guided Innovation and Therapeutic Intervention, The Hospital for Sick Children, Toronto, Ontario, Canada.
Division of Urology, Seattle Children's Hospital, Seattle, Washington.
J Surg Educ. 2014 Sep-Oct;71(5):762-7. doi: 10.1016/j.jsurg.2014.03.001. Epub 2014 Apr 18.
Pediatric laparoscopy poses unique training challenges owing to smaller workspaces, finer sutures used, and potentially more delicate tissues that require increased surgical dexterity when compared with adult analogs. We describe the development and face validation of a pediatric pyeloplasty simulator using a low-cost laparoscopic dry-laboratory model developed with 3-dimensional (3D) printing and silicone modeling.
The organs (the kidney, renal pelvis, and ureter) were created in a 3-step process where molds were created with 3D modeling software, printed with a Spectrum Z510 3D printer, and cast with Dragon Skin 30 silicone rubber. The model was secured in a laparoscopy box trainer. A pilot study was conducted at a Canadian Urological Association meeting. A total of 24 pediatric urology fellows and 3 experienced faculty members then assessed our skills module during a minimally invasive surgery training course. Participants had 60 minutes to perform a right-side pyeloplasty using laparoscopic tools and 5-0 VICRYL suture. Face validity was demonstrated on a 5-point Likert scale.
The dry-laboratory model consists of a kidney, a replaceable dilated renal pelvis and ureter with an obstructed ureteropelvic junction, and an overlying peritoneum with an inscribed fundamentals of laparoscopic surgery pattern-cutting exercise. During initial validation at the Canadian Urological Association, participants rated (out of 5) 4.75 ± 0.29 for overall impression, 4.50 ± 0.41 for realism, and 4.38 ± 0.48 for handling. During the minimally invasive surgery course, 22 of 24 fellows and all the faculty members completed the scoring. Usability was rated 4 or 5 by 14 participants (overall, 3.6 ± 1.22 by novices and 3.7 ± 0.58 by experts), indicating that they would use the model in their own training and teaching. Esthetically, the model was rated 3.5 ± 0.74 (novices) and 3.3 ± 0.58 (experts).
We developed a pediatric pyeloplasty simulator by applying a low-cost reusable model for laparoscopic training and skills acquisition. The model's usability, realism, and feel are good, it can be imaged under common modalities, and it shows promise as an educational tool.
与成人手术类似情况相比,小儿腹腔镜手术因操作空间更小、使用的缝线更精细以及组织可能更脆弱,需要更高的手术灵活性,这带来了独特的培训挑战。我们描述了一种小儿肾盂成形术模拟器的开发及表面效度验证,该模拟器采用了一种通过三维(3D)打印和硅胶建模开发的低成本腹腔镜干式实验室模型。
器官(肾脏、肾盂和输尿管)分三步制作,先用3D建模软件创建模具,再用Spectrum Z510 3D打印机打印,最后用Dragon Skin 30硅橡胶浇铸。模型固定在腹腔镜箱式训练器中。在加拿大泌尿外科学会会议上进行了一项试点研究。随后,在一个微创手术培训课程中,共有24名小儿泌尿外科住院医师和3名经验丰富的教员对我们的技能模块进行了评估。参与者有60分钟时间使用腹腔镜工具和5-0薇乔缝线进行右侧肾盂成形术。表面效度通过5分制李克特量表进行评估。
干式实验室模型包括一个肾脏、一个可更换的扩张肾盂和输尿管,输尿管肾盂连接处梗阻,以及覆盖其上的腹膜,腹膜上有腹腔镜手术基本模式切割练习的标记。在加拿大泌尿外科学会的初步验证中,参与者对总体印象的评分(满分5分)为4.75±0.29,对真实感的评分为4.50±0.41,对操作感的评分为4.38±0.48。在微创手术课程中,24名住院医师中的22名以及所有教员完成了评分。14名参与者将可用性评为4或5(总体而言,新手评分为3.6±1.22,专家评分为3.7±0.58),这表明他们会在自己的培训和教学中使用该模型。在美观方面,该模型的评分为3.5±0.74(新手)和3.3±0.58(专家)。
我们通过应用一种低成本的可重复使用模型来进行腹腔镜培训和技能获取,开发了一种小儿肾盂成形术模拟器。该模型的可用性、真实感和操作感良好,可以在常见模式下成像,有望成为一种教育工具。
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