Investigating Strain as a Biomarker for Atrial Fibrosis Quantified by Patient Cine MRI Data

2020 Computing in Cardiology Pub Date : 2020-09-13 DOI:10.22489/CinC.2020.212

A. Qureshi, Aditi Roy, H. Chubb, A. Vecchi, O. Aslanidi

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引用次数: 2

Abstract

Atrial fibrillation (AF) is responsible for deterioration of left atrial (LA) mechanical function. Sinus rhythm (SR) can be restored by terminating AF using catheter ablation (CA) therapy. CA often targets fibrotic tissue by creating scar tissue which is similar to fibrosis. We propose the use of myocardial strain to identify regions of fibrosis and understand its role in atrial mechanics. Patient-specific LA models were reconstructed from Cine and Late Gadolinium Enhanced (LGE) MRI data for two groups of patients: AF and SR pre-CA. LGE intensities represented atrial fibrosis and feature-tracking was applied on the Cine images to produce a series of 3D deforming LA meshes. The myocardial area strain (MAS) was calculated as a measure of regional contractile ability. 24 regions of clinical interest were assigned for inter- and intra-patient comparisons on the effects of CA and fibrosis on LA mechanical function. Correlation was found between low strain and dense fibrosis in the LA posterior wall for both patient groups (rs = −0.74). MAS increased (8.9%) after CA in the AF group but decreased (10%) in the SR group. This study suggests that myocardial strain can be used as a biomarker for atrial fibrosis and also identifies the detrimental effect of intentional CA-induced damage to the LA on its mechanical function.

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研究菌株作为患者MRI数据量化心房纤维化的生物标志物

心房颤动(AF)是左心房(LA)机械功能恶化的原因。窦性心律(SR)可以通过导管消融(CA)治疗终止房颤而恢复。CA通常通过制造类似于纤维化的疤痕组织来靶向纤维化组织。我们建议使用心肌应变来识别纤维化区域并了解其在心房力学中的作用。根据AF和SR ca前两组患者的Cine和Late Gadolinium Enhanced (LGE) MRI数据重建患者特异性LA模型。LGE强度代表心房纤维化，在Cine图像上应用特征跟踪产生一系列3D变形LA网格。计算心肌面积应变(MAS)作为测量区域收缩能力的指标。分配了24个临床兴趣区域，用于患者间和患者内比较CA和纤维化对LA机械功能的影响。两组患者均发现低应变与LA后壁致密纤维化之间存在相关性(rs = - 0.74)。AF组CA后MAS升高(8.9%)，SR组MAS降低(10%)。本研究表明，心肌应变可以作为心房纤维化的生物标志物，也可以确定ca诱导的LA损伤对其机械功能的有害影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 Computing in Cardiology

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