使用微型机器人步行器进行心外膜标测和消融的技术。

Techniques for epicardial mapping and ablation with a miniature robotic walker.

作者信息

Meglan Dwight A, Lv Wener, Cohen Richard J, Riviere Cameron N

机构信息

HeartLander Surgical Inc., Westwood, Massachusetts, USA.

Department of Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts, USA.

出版信息

Robot Surg. 2017;4:25-31. doi: 10.2147/RSRR.S127047. Epub 2017 Mar 23.

DOI:10.2147/RSRR.S127047

PMID:28966928

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5619864/

Abstract

BACKGROUND

Present treatments for ventricular tachycardia have significant drawbacks. To ameliorate these drawbacks, it may be advantageous to employ an epicardial robotic walker that performs mapping and ablation with precise control of needle insertion depth. This paper examines the feasibility of such a system.

METHODS

This paper describes techniques for epicardial mapping and depth-controlled ablation with the robotic walker. The mapping technique developed for the current form of the system uses a single equivalent moving dipole model combined with the navigation capability of the walker. The intervention technique provides saline-enhanced radio frequency ablation, with sensing of needle penetration depth. The mapping technique was demonstrated in an artificial heart model with a simulated arrhythmia focus, followed by preliminary testing in the porcine model in vivo. The ablation technique was demonstrated in an artificial tissue model, and then in chicken breast tissue ex vivo.

RESULTS

The walker located targets to within 2 mm using the SEMDM technique. No epicardial damage was found subsequent to the porcine trial in vivo. Needle insertion for ablation was controlled to within 2 mm of the target depth. Lesion size was repeatable, with diameter varying consistently in proportion to volume of saline injected.

CONCLUSIONS

The experiments demonstrated the general feasibility of the techniques for mapping and depth-controlled ablation with the robotic walker.

摘要

背景

目前用于室性心动过速的治疗方法存在显著缺陷。为改善这些缺陷，采用能够精确控制针插入深度进行标测和消融的心外膜机器人步行器可能具有优势。本文研究了这样一种系统的可行性。

方法

本文描述了使用机器人步行器进行心外膜标测和深度控制消融的技术。为当前形式的系统开发的标测技术使用单个等效移动偶极子模型并结合步行器的导航能力。干预技术提供盐水增强射频消融，并能感知针的穿透深度。该标测技术在具有模拟心律失常病灶的人工心脏模型中得到验证，随后在猪体内模型中进行了初步测试。消融技术在人工组织模型中得到验证，然后在离体鸡胸组织中进行了验证。

结果

使用单等效移动偶极子模型（SEMDM）技术，步行器将靶点定位在2毫米范围内。在猪体内试验后未发现心外膜损伤。消融时针的插入深度控制在目标深度的2毫米以内。病灶大小具有可重复性，直径与注入的盐水量成比例一致变化。

结论

实验证明了使用机器人步行器进行标测和深度控制消融技术的总体可行性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6dea/6193433/361bf7943519/rsrr-4-025Fig1.jpg

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使用微型机器人步行器进行心外膜标测和消融的技术。

Techniques for epicardial mapping and ablation with a miniature robotic walker.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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