Ananthapadmanabhan Saikrishna, Deng Echo, Femia Giuseppe, Tang Simon, Koh Eng-Siew, Schuster Andreas, Puranik Raj, Gupta Pankaj, Nguyen Tuan, Dimitri Hany, Otton James
Faculty of Medicine, University of New South Wales, Bossley Park, Sydney, NSW, Australia.
Cardiology Department, Liverpool Hospital, Liverpool, Sydney, Australia.
Cardiovasc Diagn Ther. 2020 Apr;10(2):173-182. doi: 10.21037/cdt.2020.01.10.
Multilayer strain measurement with cardiac magnetic resonance feature tracking (CMR-FT) allows independent assessment of endocardial and epicardial strain. This novel method of layer-specific quantification of myocardial deformation parameters provides greater insight into contractility compared to whole-layer strain analysis. The clinical utility of this technique is promising. The aim of this study is to investigate the intra- and inter- observer reproducibility of CMR-FT derived multilayer global longitudinal strain (GLS) and global circumferential strain (GCS) parameters in the setting of normal cardiac function, cardiac pathology, and differing MRI field strengths.
We studied 4 groups of 20 subjects, comprising of patients with dilated cardiomyopathy, ischemic heart disease, and patients without cardiac pathology at both 1.5 and 3 T. Quantitative measures of whole-layer and multi-layer longitudinal and circumferential strain were calculated using CMR-FT software.
Intraclass correlation coefficients (ICC) for intraobserver reproducibility of endocardial, epicardial, and whole-layer measurements of GLS were 0.979, 0.980, and 0.978 respectively, and those for GCS were 0.986, 0.977, and 0.985. ICCs for inter-observer reproducibility of endocardial, epicardial, and whole-layer measurements of GLS were 0.976, 0.970, and 0.976, and those for GCS were 0.982, 0.969, and 0.981. Bland Altman analysis showed minimal bias and acceptable limits of agreement (LOA) within each patient subgroup and the overall cohort. Circumferential and longitudinal strain parameters were equally reproducible in the overall cohort.
CMR-FT derived multilayer measurements of longitudinal and circumferential strain demonstrate high intra- and inter- observer reproducibility, with suitability for use in clinical practice.
采用心脏磁共振特征追踪(CMR-FT)进行多层应变测量可独立评估心内膜和心外膜应变。与全层应变分析相比,这种对心肌变形参数进行层特异性量化的新方法能更深入地了解心肌收缩力。该技术的临床应用前景广阔。本研究旨在探讨在正常心功能、心脏病理状态及不同磁共振场强情况下,CMR-FT得出的多层整体纵向应变(GLS)和整体圆周应变(GCS)参数在观察者内和观察者间的可重复性。
我们研究了4组,每组20名受试者,包括扩张型心肌病患者、缺血性心脏病患者以及在1.5T和3T场强下无心脏病变的患者。使用CMR-FT软件计算全层和多层纵向及圆周应变的定量测量值。
观察者内GLS心内膜、心外膜和全层测量的组内相关系数(ICC)分别为0.979、0.980和0.978,GCS的ICC分别为0.986、0.977和0.985。观察者间GLS心内膜、心外膜和全层测量的ICC分别为0.976、0.970和0.976,GCS的ICC分别为0.982、0.969和0.981。Bland Altman分析显示,每个患者亚组和整个队列中的偏差极小,一致性界限(LOA)可接受。在整个队列中,圆周应变和纵向应变参数的可重复性相当。
CMR-FT得出的纵向和圆周应变的多层测量显示出高度的观察者内和观察者间可重复性,适用于临床实践。
