用于训练微创儿科手术的3D打印合成模型-我们自己的经验和文献综述。

Q4 Medicine
P Zahradnikova, M Lindák, P Vitovič, M Laurovičová, T Tvrdoň, S Hnilicová, J Babala
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引用次数: 0

摘要

儿科外科是一门专注于先天性和后天性异常和疾病的儿童的诊断、治疗和术后护理的医学专业。儿科外科医生的目标是确保儿童得到最好的护理,同时尽量减少与外科手术相关的风险和并发症。当代儿科外科医生面临许多挑战,包括先天性发育缺陷儿童数量的下降,经济压力,以及提高效率的努力,导致单个手术花费的时间减少。这就限制了对年轻外科医生进行全面培训的机会。这些挑战需要创新的方法和不断改进的教育和培训方法。微创手术已成为儿科外科的重要组成部分,其优点包括恢复更快、手术伤口更小、感染风险更低。然而,微创儿科手术的技术要求很高,需要出色的技术技能。维持和提高手术技能的需要需要持续的培训。目前的教育方法越来越依赖于模拟技术来提高培训的质量和安全性,而不会给患者带来风险。3D打印技术与CT和MRI扫描成像数据的整合,为微创手术创建高度逼真的模拟模型开辟了新的可能性。这些模型准确地复制了新生儿手术等过程中遇到的环境。在这篇文章中,我们介绍了我们开发和创建3d打印合成模型的经验,该模型设计用于训练胸腔镜手术治疗食管闭锁合并气管食管瘘。这篇综述文章的目的是提供一个最新的文献概述合成3d打印模型设计在微创儿科手术培训。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
3D printed synthetic models for training minimally invasive pediatric surgery - our own experience and literature review.

Pediatric surgery is a medical specialty focused on the diagnosis, treatment, and postoperative care of children with congenital and acquired anomalies and diseases. The goal of pediatric surgeons is to ensure that children receive the best possible care while minimizing the risks and complications associated with surgical procedures. Contemporary pediatric surgeons face many challenges, including a decline in the number of children with congenital developmental defects, economic pressures, and efforts to increase efficiency, leading to reduced time spent on individual surgeries. This can limit the opportunity for thorough training of young surgeons. These challenges require innovative approaches and continuous improvement in educational and training methods. Minimally invasive surgery has become a significant part of pediatric surgery, offering benefits such as faster recovery, smaller surgical wounds, and lower risk of infection. However, minimally invasive pediatric surgery is technically demanding and requires excellent technical skills. The need to maintain and improve surgical skills demands ongoing training. Current educational methods increasingly rely on simulation technologies to enhance the quality and safety of training without risk to patients. The integration of 3D printing technology and imaging data from CT and MRI scans has opened new possibilities for creating highly realistic simulation models for minimally invasive surgery. These models accurately replicate the environment encountered in procedures like neonatal surgery. In this article, we present our experience with the development and creation of 3D-printed synthetic models designed for training thoracoscopic surgery of esophageal atresia with tracheoesophageal fistula. The aim of this review article is to provide an up-to-date overview of the literature on synthetic 3D-printed models designed for training in minimally invasive pediatric surgery.

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来源期刊
Rozhledy v Chirurgii
Rozhledy v Chirurgii Medicine-Medicine (all)
CiteScore
0.50
自引率
0.00%
发文量
67
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