基于导管的电解剖标测到 DICOM 成像的新型工作流程，用于非侵入性的室性心动过速射频消融。

Novel Workflow for Conversion of Catheter-Based Electroanatomic Mapping to DICOM Imaging for Noninvasive Radioablation of Ventricular Tachycardia.

机构信息

Department of Radiation Oncology, Vanderbilt University Medical Center, Nashville, Tennessee.

Department of Cardiology, Vanderbilt University Medical Center, Nashville, Tennessee.

出版信息

Pract Radiat Oncol. 2021 Jan-Feb;11(1):84-88. doi: 10.1016/j.prro.2020.04.006. Epub 2020 May 13.

DOI:10.1016/j.prro.2020.04.006

PMID:32416269

Abstract

PURPOSE

A recent clinical trial has demonstrated that noninvasive radioablation (NIRA) has the potential to reduce recurrent ventricular tachycardia (VT) that is refractory to drugs and standard catheter ablation. Electroanatomic mapping (EAM) that would be useful for planning is obtained during catheter ablation, but incompatibility between EAM and DICOM formats required for radiation planning has impeded the use of existing catheter-based mapping to guide NIRA and is an important hurdle for its wider adoption. In this paper we define a process to facilitate the fusion of catheter-based EAM with DICOM imaging for radiation planning.

METHOD AND MATERIALS

The raw data export of the CARTO3 EAM system (version 6.0.45.171, ".mesh" file) was processed with a MATLAB script to generate 3-dimensional (3D) visual took kit files containing X, Y, Z coordinates obtained during mapping and corresponding impedance, voltage, and other point-based information. The image could then be visualized with standard image processing software (3D Slicer) and the target outlined on the image surface. This structure was in turn converted to a DICOM image and fused with patient thoracic imaging using anatomic landmarks. Robustness of the workflow was assessed through implementation with a second magnetic resonance imaging based VT ablation planning system, ADAS-VT.

RESULTS

This process facilitated the fusion of EAM and DICOM imaging to inform selection of NIRA targets. The workflow was found to be robust and compatible with a second VT ablation planning system.

CONCLUSIONS

The conversion of catheter-based EAM to a DICOM compatible format permits the fusion of images for radiation planning and provides an avenue for the wider application of NIRA. Further improvements in the compatibility of these imaging formats would be expected to improve quality and reproducibility of image fusion.

摘要

目的

最近的一项临床试验表明，无创性放射消融（NIRA）有可能减少对药物和标准导管消融有抗性的复发性室性心动过速（VT）。在导管消融期间会获得对规划有用的电解剖图（EAM），但 EAM 与辐射规划所需的 DICOM 格式之间的不兼容阻碍了现有基于导管的映射用于指导 NIRA 的使用，这是其更广泛采用的一个重要障碍。在本文中，我们定义了一个流程，以促进导管 EAM 与辐射规划的 DICOM 成像融合。

方法和材料

CARTO3 EAM 系统的原始数据导出（版本 6.0.45.171，“.mesh”文件）通过 MATLAB 脚本进行处理，生成包含在映射过程中获得的 X、Y、Z 坐标以及相应的阻抗、电压和其他基于点的信息的 3 维（3D）可视化工具包文件。然后可以使用标准图像处理软件（3D Slicer）查看图像，并在图像表面上勾勒出目标。该结构继而被转换为 DICOM 图像，并使用解剖学标记与患者的胸部成像融合。通过与第二个基于磁共振成像的 VT 消融规划系统 ADAS-VT 的实现来评估工作流程的稳健性。

结果

该过程促进了 EAM 和 DICOM 成像的融合，以告知 NIRA 目标的选择。该工作流程被发现是稳健的，并且与第二个 VT 消融规划系统兼容。

结论

将基于导管的 EAM 转换为 DICOM 兼容格式允许对图像进行融合以进行辐射规划，并为更广泛地应用 NIRA 提供了途径。这些成像格式的兼容性的进一步改进有望提高图像融合的质量和可重复性。

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基于导管的电解剖标测到 DICOM 成像的新型工作流程，用于非侵入性的室性心动过速射频消融。

Novel Workflow for Conversion of Catheter-Based Electroanatomic Mapping to DICOM Imaging for Noninvasive Radioablation of Ventricular Tachycardia.

机构信息

出版信息

PURPOSE

METHOD AND MATERIALS

RESULTS

CONCLUSIONS

目的

方法和材料

结果

结论

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