解剖标本中的显微神经外科培训:住院实习期间内窥镜和显微颅底外科培训的结构化计划。

Mario Gomar-Alba , Pablo González-López , Javier Abarca-Olivas , Carlos Martorell-Llobregat , Cristina Gómez-Revuelta , José Masegosa-González
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引用次数: 0

摘要

背景和目的:培养高水平的能力和技术熟练程度是任何神经外科培训计划的主要目标之一。由于多种因素,这种渐进式技能发展在住院医师培训期间可能很复杂。尽管解剖实验室的成本和基础设施要求都很高,但人们对解剖实验室的作用重新产生了兴趣。在研究和解剖人体尸体的过程中,许多外科医生掌握了显微神经外科手术的必要技能。我们提出了一个结构化的内窥镜和显微外科培训解剖计划,使住院医生能够最大限度地受益于他们在实验室的培训:2021年9月、10月和11月,我们在阿利坎特米格尔-埃尔南德斯大学的显微神经外科和颅底实验室进行了一次实习。共使用了两个标本。第一个标本进行了第一阶段的内窥镜鼻腔内解剖。在完成内窥镜部分后,再进行一组切口,以进行经颅部分。在第二个标本中,首先进行经颅部分,将鼻内镜工作留到最后阶段:结果:展示了解剖程序的结果。在鼻内镜阶段,模拟了经蝶鞍入路,重点是矢状面上的扩展入路。在经颅阶段,进行了左右前外侧入路、左前跨胼胝体半球间入路、左跨髁后外侧入路和右外侧联合入路:标本的结构化解剖允许在同一标本上进行鼻内镜和经颅显微外科训练。这种设计有助于在同一标本中实现核心颅底方法。根据我们的初步经验,我们相信制定共同的解剖方案是使住院医师实验室培训效果最大化的有力工具。
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Microneurosurgical training in the anatomical specimen: A structured plan for endoscopic and microsurgical skull base training during the residency

Background and objective

The development of a high level of competence and technical proficiency is one of the main objectives of any neurosurgical training program. Due to many factors, this progressive skill development can be complex during the residency. Despite its high cost and infrastructure requirements, there is renewed interest regarding the role of anatomy labs. The study and dissection of the human cadaver has been the environment where many surgeons have developed the necessary skills for microneurosurgery. We propose a structured endoscopic and microsurgical training dissection program to enable residents to maximize the benefits of their training in the lab.

Material and methods

During the months of September, October and November 2021, a stay was done at the Microneurosurgery and Skull Base Laboratory of the Miguel Hernández University of Alicante. A total of 2 specimens were used. The first specimen underwent a first endoscopic endonasal dissection phase. After completing the endonasal part, a set of incisions were made to perform the transcranial part. In the second specimen, the transcranial part was performed first, leaving the endonasal endoscopic work for the last phase.

Results

The results of the dissection program are presented. During the endonasal endoscopic phase, the transsphenoidal approach to the sella was simulated while focusing on the extended approaches in the sagittal plane. During the transcranial phase, right and left anterolateral approaches, a left anterior transcallosal interhemispheric approach, a left transcondylar posterolateral approach and a combined right lateral approach were performed.

Conclusions

The structured dissection of the specimen allowed both endonasal endoscopic and transcranial microsurgical training in the same specimen. This design facilitated the realization of the core skull base approaches in the same specimen. According to our initial experience, we believe that developing common dissection programs is a powerful tool to maximize the results of our residents’ laboratory training.

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