阴茎假体手术三维模拟器的开发与验证。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-04-30 DOI:10.1093/jsxmed/qdae020
Yacov Reisman, Koen van Renterghem, Boaz Meijer, Anna Ricapito, Mikkel Fode, Carlo Bettocchi
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引用次数: 0

摘要

背景:阴茎假体手术技能的掌握有很多局限性,主要是因为缺乏模拟器和模型来进行培训。三维(3D)打印模型可用于手术模拟,因为它们为进入手术室前的练习提供了机会,并使人们更好地理解手术方法:本研究包括 3 个评估和验证阶段。第一阶段是验证三维原型模型与尸体骨盆的解剖标志。第二阶段是根据罗切斯特评估分数验证改进模型的解剖准确性和教学目的。第三阶段包括验证三维原型模型作为手术模拟器和技能学习的适用性。第三阶段在 3 个中心进行,使用的是经过验证的已有问卷的修改版,并与罗切斯特评估得分相关联:结果:与现有的尸体模型相比,我们试图确定三维模型是否适合用于阴茎假体手术培训:评估结果表明,罗切斯特评估得分与修改后的有效问卷之间的皮尔逊相关系数(0.86)很高。三维模型在复制阴茎假体手术过程的相关人体解剖结构方面的得分为 4.33 ± 0.57(李克特量表从 1 到 5 分)。三维模型在提高技术技能、教授和练习手术以及评估外科医生能力方面的得分为 4.33 ± 0.57(李克特量表从 1 到 5 分不等)。此外,专家们还表示,与尸体相比,三维模型更符合道德规范,成本更低,更容易获得:临床意义:经过验证的三维模型是阴茎假体手术培训的合适替代方案:这是首个经过验证的用于阴茎假体手术教学和培训的三维水凝胶模型,专家认为该模型适用于技能学习。由于目前还没有用于阴茎手术三维模拟器验证和核查的具体有效指南和调查问卷,因此使用了一份经过修改的调查问卷:目前的阴茎假体手术三维模型在解剖学特性和培训外科医生进行阴茎假体手术的适用性方面显示出良好的效果。该模型符合伦理道德、易于使用、成本较低、对环境影响有限,这对模型的进一步发展具有鼓舞作用。
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Development and validation of 3-dimensional simulators for penile prosthesis surgery.

Background: The acquisition of skills in penile prosthesis surgery has many limitations mainly due to the absence of simulators and models for training. Three-dimensional (3D) printed models can be utilized for surgical simulations, as they provide an opportunity to practice before entering the operating room and provide better understanding of the surgical approach.

Aim: This study aimed to evaluate and validate a 3D model of human male genitalia for penile prosthesis surgery.

Methods: This study included 3 evaluation and validation stages. The first stage involved verification of the 3D prototype model for anatomic landmarks compared with a cadaveric pelvis. The second stage involved validation of the improved model for anatomic accuracy and teaching purposes with the Rochester evaluation score. The third stage comprised validation of the suitability of the 3D prototype model as a surgical simulator and for skill acquisition. The third stage was performed at 3 centers using a modified version of a pre-existing, validated questionnaire and correlated with the Rochester evaluation score.

Outcome: We sought to determine the suitability of 3D model for training in penile prosthesis surgery in comparison with the available cadaveric model.

Results: The evaluation revealed a high Pearson correlation coefficient (0.86) between questions of the Rochester evaluation score and modified validated questionnaire. The 3D model scored 4.33 ± 0.57 (on a Likert scale from 1 to 5) regarding replication of the relevant human anatomy for the penile prosthesis surgery procedure. The 3D model scored 4.33 ± 0.57 (on a Likert scale from 1 to 5) regarding its ability to improve technical skills, teach and practice the procedure, and assess a surgeon's ability. Furthermore, the experts stated that compared with the cadaver, the 3D model presented greater ethical suitability, reduced costs, and easier accessibility.

Clinical implications: A validated 3D model is a suitable alternative for penile prosthesis surgery training.

Strengths and limitations: This is the first validated 3D hydrogel model for penile prosthesis surgery teaching and training that experts consider suitable for skill acquisition. Because specific validated guidelines and questionnaires for the validation and verifications of 3D simulators for penile surgery are not available, a modified questionnaire was used.

Conclusion: The current 3D model for penile prosthesis surgery shows promising results regarding anatomic properties and suitability to train surgeons to perform penile implant surgery. The possibility of having an ethical, easy-to-use model with lower costs and limited consequences for the environment is encouraging for further development of the models.

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