应用近场超声实时体内成像观察射频导管消融损伤形成的特点。

Characteristics of Radiofrequency Catheter Ablation Lesion Formation in Real Time In Vivo Using Near Field Ultrasound Imaging.

机构信息

Division of Imaging Sciences and Biomedical Engineering, King's College London, United Kingdom and Department of Cardiology, St. Thomas' Hospital, London, United Kingdom.

Philips Healthcare, Best, the Netherlands.

出版信息

JACC Clin Electrophysiol. 2018 Aug;4(8):1062-1072. doi: 10.1016/j.jacep.2018.04.002. Epub 2018 May 30.

DOI:10.1016/j.jacep.2018.04.002

PMID:30139488

Abstract

OBJECTIVES

Visualizing myocardium with near field ultrasound (NFUS) transducers in the tip of the catheter might provide an image of the evolving pathological lesion during energy delivery.

BACKGROUND

Radiofrequency (RF) catheter ablation has been effective in arrhythmia treatment, but no technology has allowed lesion formation to be visualized in real time in vivo.

METHODS

RF catheter ablations were performed in vivo with the goal to create transmural atrial lesions and large ventricular lesions. RF lesion formation was imaged in real time using M-mode, tissue Doppler, and strain rate information from the NFUS open irrigated RF ablation catheter incorporating 4 ultrasound transducers (1 axial and 3 radial), and growth kinetics were analyzed. Nineteen dogs underwent ablation in the right and left atria (n = 185), right ventricle (n = 67), and left ventricle (n = 66). Lesions were echolucent with tissue strain rate by NFUS.

RESULTS

Lesion growth frequently progressed from epicardium to endocardium in thin-walled tissue. The half time of lesion growth was 5.5 ± 2.8 s in thin-walled and 9.7 ± 4.3 s in thick-walled tissue. Latency of lesion onset was seen in 57% of lesions ranging from 1 to 63.8 s. Tissue edema (median 25% increased wall thickness) formed immediately upon lesion formation in 83%, and intramyocardial steam was seen in 71% of cases.

CONCLUSIONS

NFUS was effective in imaging RF catheter ablation lesion formation in real time. It was useful in assessing the dynamics of lesion growth and could visualize impending steam pops. It may be a useful technology to improve both safety and efficacy of RF catheter ablation.

摘要

目的

在导管尖端使用近场超声（NFUS）换能器观察心肌，可能会提供能量传递过程中病变进展的图像。

背景

射频（RF）导管消融术在心律失常治疗中已取得成效，但尚无技术能够实时可视化活体中的病变形成。

方法

使用 RF 导管进行体内消融，目的是创建贯穿心房的病变和大的心室病变。使用 M 模式、组织多普勒和 NFUS 开放式灌注 RF 消融导管（包含 4 个超声换能器，1 个轴向和 3 个径向）的组织应变速率信息实时成像，分析生长动力学。19 只狗分别在右心房和左心房（n=185）、右心室（n=67）和左心室（n=66）进行消融。NFUS 显示病变为无回声，组织应变速率低。

结果

在薄壁组织中，病变生长通常从心外膜向心内膜进展。薄壁组织中病变生长的半衰期为 5.5±2.8s，厚壁组织中为 9.7±4.3s。57%的病变潜伏期为 1-63.8s。57%的病变立即出现病变起始延迟，潜伏期为 1-63.8s。83%的病例在病变形成时立即出现组织水肿（中位数为 25%的壁厚度增加），71%的病例可见心肌蒸汽。

结论

NFUS 可有效实时成像 RF 导管消融的病变形成。它有助于评估病变生长的动态，并能可视化即将出现的蒸汽弹。它可能是一种有用的技术，可以提高 RF 导管消融的安全性和疗效。

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应用近场超声实时体内成像观察射频导管消融损伤形成的特点。

Characteristics of Radiofrequency Catheter Ablation Lesion Formation in Real Time In Vivo Using Near Field Ultrasound Imaging.

机构信息

出版信息

OBJECTIVES

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

目的

背景

方法

结果

结论

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