梗死透壁性对心肌功能层面特异性损害的影响:一项心肌形变成像研究
Impact of infarct transmurality on layer-specific impairment of myocardial function: a myocardial deformation imaging study.
作者信息
Becker Michael, Ocklenburg Christina, Altiok Ertunc, Füting Antje, Balzer Jan, Krombach Gabriele, Lysyansky Michael, Kühl Harald, Krings Renate, Kelm Malte, Hoffmann Rainer
机构信息
Medical Clinic I, University Hospital RWTH Aachen, Pauwelsstrasse 30, Aachen, Germany.
出版信息
Eur Heart J. 2009 Jun;30(12):1467-76. doi: 10.1093/eurheartj/ehp112. Epub 2009 Apr 7.
AIMS
To evaluate deformation parameters of an endocardial, mid-myocardial, and epicardial myocardial layer in different transmurality of myocardial infarction and assess whether layer-specific deformation analysis allows definition of infarct transmurality.
METHODS AND RESULTS
Fifty-six patients (mean age 55 +/- 9 years, 38 men) with chronic ischaemic left ventricular (LV) dysfunction underwent two-dimensional echocardiography and contrast-enhanced magnetic resonance imaging (ceMRI). The extent of myocardial infarction was determined as relative amount of hyperenhancement by ceMRI in a 16-segment LV model (0%, no infarction; 1-50%, non-transmural infarction; 51-100%, transmural infarction). On the basis of two-dimensional echocardiographic parasternal short-axis views peak systolic circumferential strain was determined for the total wall thickness and for each of three myocardial layers (endocardial, mid-myocardial, and epicardial) using an automatic frame-by-frame tracking system of acoustic echocardiographic markers (EchoPAC, GE Ultrasound). In non-transmural infarction impairment of circumferential strain was greater in the endocardial than the epicardial layer, relative reduction compared with control segments, 45% vs. 28% (P < 0.001), respectively. In transmural infarction additional impairment of circumferential strain was greater in the epicardial than the endocardial layer, relative reduction compared with non-transmural infarction 29% vs. 7% (P < 0.001), respectively. Endocardial layer circumferential strain allowed distinction of non-transmural vs. no infarction with higher accuracy than total wall thickness strain [area under the curve (AUC) 0.842 vs. 0.774, respectively, P = 0.001]. Epicardial layer circumferential strain allowed distinction of transmural from non-transmural infarction with higher accuracy than total wall thickness strain (AUC 0.819 vs. 0.762, respectively, P = 0.005).
CONCLUSION
Non-transmural infarction results in greater functional impairment of the endocardial than of the epicardial myocardial layer. In transmural infarction both layers are affected similarly compared with controls. A layer-specific analysis of myocardial deformation allows accurate discrimination between different transmurality categories of myocardial infarction.
目的
评估心肌梗死不同透壁程度下心内膜、心肌中层和心外膜心肌层的形变参数,并评估心肌层特异性形变分析是否能够确定梗死透壁程度。
方法与结果
56例(平均年龄55±9岁,38例男性)患有慢性缺血性左心室(LV)功能障碍的患者接受了二维超声心动图和对比增强磁共振成像(ceMRI)检查。通过ceMRI在16节段左心室模型中测定心肌梗死范围,以高增强的相对量表示(0%,无梗死;1 - 50%,非透壁性梗死;51 - 100%,透壁性梗死)。基于二维超声心动图胸骨旁短轴视图,使用声学超声心动图标记物的自动逐帧跟踪系统(EchoPAC,GE超声)测定全层心肌以及三个心肌层(心内膜、心肌中层和心外膜)各自的收缩期峰值圆周应变。在非透壁性梗死中,心内膜圆周应变的损害比心外膜层更大,与对照节段相比相对降低分别为45%和28%(P < 0.001)。在透壁性梗死中,心外膜圆周应变的额外损害比心内膜层更大,与非透壁性梗死相比相对降低分别为29%和7%(P < 0.001)。心内膜层圆周应变区分非透壁性梗死与无梗死的准确性高于全层心肌圆周应变[曲线下面积(AUC)分别为0.842和0.774,P = 0.001]。心外膜层圆周应变区分透壁性梗死与非透壁性梗死的准确性高于全层心肌圆周应变(AUC分别为0.819和0.762,P = 0.005)。
结论
非透壁性梗死导致心内膜心肌层的功能损害比心外膜层更大。在透壁性梗死中,与对照组相比两层受影响程度相似。心肌形变的心肌层特异性分析能够准确区分不同透壁程度类别的心肌梗死。
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