一种用于安全有效放置体外引流管的新型装置的多模态模拟

Multimodal Simulation of a Novel Device for a Safe and Effective External Ventricular Drain Placement.

作者信息

Umana Giuseppe Emmanuele, Scalia Gianluca, Yagmurlu Kaan, Mineo Rosalia, Di Bella Simone, Giunta Matteo, Spitaleri Angelo, Maugeri Rosario, Graziano Francesca, Fricia Marco, Nicoletti Giovanni Federico, Tomasi Santino Ottavio, Raudino Giuseppe, Chaurasia Bipin, Bellocchi Gianluca, Salvati Maurizio, Iacopino Domenico Gerardo, Cicero Salvatore, Visocchi Massimiliano, Strigari Lidia

机构信息

Department of Neurosurgery, Trauma Center, Gamma Knife Center, Cannizzaro Hospital, Catania, Italy.

Department of Neurosurgery, Highly Specialized Hospital and of National Importance "Garibaldi," Catania, Italy.

出版信息

Front Neurosci. 2021 Jun 14;15:690705. doi: 10.3389/fnins.2021.690705. eCollection 2021.

DOI:10.3389/fnins.2021.690705

PMID:34194297

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8236630/

Abstract

BACKGROUND

External ventricular drain (EVD) placement is mandatory for several pathologies. The misplacement rate of the EVD varies widely in literature, ranging from 12.3 to 60%. The purpose of this simulation study is to provide preliminary data about the possibility of increasing the safety of one of the most common life-saving procedures in neurosurgery by testing a new device for EVD placement.

METHODS

We used a novel guide for positioning the ventricular catheter (patent RM2014A000376). The trajectory was assessed using 25 anonymized head CT scans. The data sets were used to conduct three-dimensional computer-based and combined navigation and augmented reality-based simulations using plaster models. The data set inclusion criteria were volumetric head CT scan, without midline shift, of patients older than 18. Evans' index was used to quantify the ventricle's size. We excluded patients with slit ventricles, midline shift, skull fractures, or complex skull malformations. The proximal end of the device was tested on the cadaver.

RESULTS

The cadaveric tests proved that a surgeon could use the device without any external help. The multimodal simulation showed Kakarla grade 1 in all cases but one (grade 2) on both sides, after right and left EVD placement. The mean Evans' index was 0.28. The geometric principles that explain the device's efficacy can be summarized by studying the properties of circumference and chord. The contact occurs, for each section considered, at the extreme points of the chord. Its axis, perpendicular to the plane tangent to the spherical surface at the entry point, corresponds to the direction of entry of the catheter guided by the instrument.

CONCLUSION

According to our multimodal simulation on cadavers, 3D computer-based simulation, 3D plaster modeling, 3D neuronavigation, and augmented reality, the device promises to offer safer and effective EVD placement. Further validation in future clinical studies is recommended.

摘要

背景

对于多种病症，外置脑室引流管（EVD）置入是必要的。EVD的误置率在文献中的差异很大，从12.3%到60%不等。本模拟研究的目的是通过测试一种用于EVD置入的新装置，提供关于提高神经外科最常见的挽救生命手术之一安全性可能性的初步数据。

方法

我们使用了一种用于定位脑室导管的新型导向器（专利RM2014A000376）。使用25份匿名头部CT扫描评估轨迹。数据集用于使用石膏模型进行基于三维计算机的以及联合导航和增强现实的模拟。数据集纳入标准为18岁以上患者的容积性头部CT扫描，无中线移位。采用埃文斯指数来量化脑室大小。我们排除了脑室狭小、中线移位、颅骨骨折或复杂颅骨畸形的患者。该装置的近端在尸体上进行了测试。

结果

尸体测试证明外科医生无需任何外部帮助即可使用该装置。多模态模拟显示，在左右两侧进行EVD置入后，除一例（2级）外，所有病例均为卡卡拉伸1级。平均埃文斯指数为0.28。通过研究圆周和弦的特性可以总结出解释该装置有效性的几何原理。对于所考虑的每个截面，接触发生在弦的端点处。其轴线垂直于在入口点与球面相切的平面，对应于由该器械引导的导管的进入方向。

结论

根据我们在尸体上进行的多模态模拟、基于三维计算机的模拟、三维石膏建模、三维神经导航和增强现实，该装置有望实现更安全有效的EVD置入。建议在未来的临床研究中进一步验证。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/61d0/8236630/7b6bfdee83fa/fnins-15-690705-g001.jpg

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一种用于安全有效放置体外引流管的新型装置的多模态模拟

Multimodal Simulation of a Novel Device for a Safe and Effective External Ventricular Drain Placement.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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