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局部机电改变决定 CRT 适应证心力衰竭患者左心室的旋转动力学。

Local electromechanical alterations determine the left ventricle rotational dynamics in CRT-eligible heart failure patients.

机构信息

Department of Cardiology and Structural Heart Disease, Medical University of Silesia, Ziołowa 45-47, Katowice, Poland.

Interventional Cardiac Electrophysiology Group, International Clinical Research Center, St. Anne's University Hospital in Brno, Brno, Czech Republic.

出版信息

Sci Rep. 2021 Feb 5;11(1):3267. doi: 10.1038/s41598-021-82793-1.

Abstract

Left ventricle, LV wringing wall motion relies on physiological muscle fiber orientation, fibrotic status, and electromechanics (EM). The loss of proper EM activation can lead to rigid-body-type (RBT) LV rotation, which is associated with advanced heart failure (HF) and challenges in resynchronization. To describe the EM coupling and scar tissue burden with respect to rotational patterns observed on the LV in patients with ischemic heart failure with reduced ejection fraction (HFrEF) left bundle branch block (LBBB). Thirty patients with HFrEF/LBBB underwent EM analysis of the left ventricle using an invasive electro-mechanical catheter mapping system (NOGA XP, Biosense Webster). The following parameters were evaluated: rotation angle; rotation velocity; unipolar/bipolar voltage; local activation time, LAT; local electro-mechanical delay, LEMD; total electro-mechanical delay, TEMD. Patients underwent late-gadolinium enhancement cMRI when possible. The different LV rotation pattern served as sole parameter for patients' grouping into two categories: wringing rotation (Group A, n = 6) and RBT rotation (Group B, n = 24). All parameters were aggregated into a nine segment, three sector and whole LV models, and compared at multiple scales. Segmental statistical analysis in Group B revealed significant inhomogeneities, across the LV, regarding voltage level, scar burdening, and LEMD changes: correlation analysis showed correspondently a loss of synchronization between electrical (LAT) and mechanical activation (TEMD). On contrary, Group A (relatively low number of patients) did not present significant differences in LEMD across LV segments, therefore electrical (LAT) and mechanical (TEMD) activation were well synchronized. Fibrosis burden was in general associated with areas of low voltage. The rotational behavior of LV in HF/LBBB patients is determined by the local alteration of EM coupling. These findings serve as a strong basic groundwork for a hypothesis that EM analysis may predict CRT response.Clinical trial registration: SUM No. KNW/0022/KB1/17/15.

摘要

左心室(LV)扭曲壁运动依赖于生理肌纤维方向、纤维化状态和机电(EM)。适当的 EM 激活丧失可导致刚体型(RBT)LV 旋转,这与晚期心力衰竭(HF)和再同步化挑战有关。描述在射血分数降低的缺血性心力衰竭(HFrEF)伴左束支传导阻滞(LBBB)患者中,LV 旋转模式与 EM 耦合和疤痕组织负担的关系。30 例 HFrEF/LBBB 患者接受了使用侵入性机电导管映射系统(NOGA XP,Biosense Webster)的左心室 EM 分析。评估了以下参数:旋转角度;旋转速度;单极/双极电压;局部激活时间(LAT);局部机电延迟(LEMD);总机电延迟(TEMD)。当可能时,患者接受了晚期钆增强 cMRI。不同的 LV 旋转模式作为患者分组为两类的唯一参数:扭曲旋转(A 组,n=6)和 RBT 旋转(B 组,n=24)。所有参数均被汇总为九个节段、三个扇区和整个 LV 模型,并在多个尺度上进行比较。B 组的节段统计分析显示,LV 电压水平、疤痕负荷和 LEMD 变化存在明显的异质性:相关性分析显示,电(LAT)和机械激活(TEMD)之间的同步性丧失。相反,A 组(相对较少的患者)在 LV 节段之间的 LEMD 没有明显差异,因此电(LAT)和机械(TEMD)激活很好地同步。纤维化负担通常与低电压区域相关。HF/LBBB 患者 LV 的旋转行为由 EM 耦合的局部改变决定。这些发现为 EM 分析可能预测 CRT 反应的假设提供了坚实的基础。临床试验注册号:SUM No. KNW/0022/KB1/17/15。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c532/7865069/231d4f9cdb15/41598_2021_82793_Fig1_HTML.jpg

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