看不见的未来：3D 打印在儿科脑血管病教育中的应用。

That which is unseen: 3D printing for pediatric cerebrovascular education.

机构信息

Department of Neurologic Surgery, Mayo Clinic, Rochester, MN, USA.

Department of Neurologic Surgery, OU Health University of Oklahoma Medical Center, Oklahoma City, OK, USA.

出版信息

Childs Nerv Syst. 2023 Sep;39(9):2449-2457. doi: 10.1007/s00381-023-05987-0. Epub 2023 Jun 5.

DOI:10.1007/s00381-023-05987-0

PMID:37272936

Abstract

INTRODUCTION

Pediatric cerebrovascular lesions are very rare and include aneurysms, arteriovenous malformations (AVM), and vein of Galen malformations (VOGM).

OBJECTIVE

To describe and disseminate a validated, reproducible set of 3D models for optimization of neurosurgical training with respect to pediatric cerebrovascular diseases METHODS: All pediatric cerebrovascular lesions treated at our institution with adequate imaging studies during the study period 2015-2020 were reviewed by the study team. Three major diagnostic groups were identified: aneurysm, AVM, and VOGM. For each group, a case deemed highly illustrative of the core diagnostic and therapeutic principles was selected by the lead and senior investigators for printing (CSG/JM). Files for model reproduction and free distribution were prepared for inclusion as Supplemental Materials.

RESULTS

Representative cases included a 7-month-old female with a giant left MCA aneurysm; a 3-day-old male with a large, complex, high-flow, choroidal-type VOGM, supplied from bilateral thalamic, choroidal, and pericallosal perforators, with drainage into a large prosencephalic vein; and a 7-year-old male with a left frontal AVM with one feeding arterial vessel from the anterior cerebral artery and one single draining vein into the superior sagittal sinus CONCLUSION: Pediatric cerebrovascular lesions are representative of rare but important neurosurgical diseases that require creative approaches for training optimization. As these lesions are quite rare, 3D-printed models and open source educational materials may provide a meaningful avenue for impactful clinical teaching with respect to a wide swath of uncommon or unusual neurosurgical diseases.

摘要

简介

小儿脑血管病变非常罕见，包括动脉瘤、动静脉畸形（AVM）和静脉瘤（VOGM）。

目的

描述并传播一套经过验证、可重复的 3D 模型，以优化小儿脑血管疾病的神经外科培训。

方法

研究团队回顾了 2015 年至 2020 年期间在我院接受充分影像学检查的所有小儿脑血管病变。确定了三个主要的诊断组：动脉瘤、AVM 和 VOGM。对于每个组，由首席研究员和高级研究员选择一个被认为高度说明核心诊断和治疗原则的病例进行打印（CSG/JM）。为包括补充材料在内，准备了模型复制和免费分发的文件。

结果

代表性病例包括一名 7 个月大的女性，患有巨大的左侧 MCA 动脉瘤；一名 3 天大的男性，患有一个大的、复杂的、高流量的脉络膜型 VOGM，由双侧丘脑、脉络膜和胼胝体穿通动脉供应，引流至一个大的前脑静脉；一名 7 岁男性，左侧额叶 AVM，一条来自大脑前动脉的供血动脉和一条单一的引流静脉进入上矢状窦。

结论

小儿脑血管病变是罕见但重要的神经外科疾病的代表，需要创造性的方法来优化培训。由于这些病变非常罕见，3D 打印模型和开源教育材料可能为广泛的罕见或不寻常的神经外科疾病提供有意义的临床教学途径。

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看不见的未来：3D 打印在儿科脑血管病教育中的应用。

That which is unseen: 3D printing for pediatric cerebrovascular education.

机构信息

出版信息

INTRODUCTION

OBJECTIVE

RESULTS

简介

目的

方法

结果

结论

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