二维应变成像联合腺苷负荷超声心动图评估犬实验性缺血/再灌注损伤后的存活心肌
[Evaluation of viable myocardium by two-dimensional strain imaging combined with adenosine stress echocardiography in dogs underwent experimental ischemia/reperfusion injury].
作者信息
FANG Ling-ling, ZHANG Ping-yang, WANG Chong, MA Xiao-wu, SHI Hong-wei, WANG Li-ming, FENG Xue-hong
机构信息
Department of Cardiovascular Ultrasound, Anesthesiology and Cardiothoracic Surgery, Nanjing First Hospital Affiliated to Nanjing Medical University, Nanjing 210006, China.
出版信息
Zhonghua Xin Xue Guan Bing Za Zhi. 2010 Sep;38(9):829-33.
OBJECTIVE
to explore the feasibility of evaluating viable myocardium with two-dimensional strain imaging combined with adenosine stress echocardiography.
METHODS
acute myocardial infarction and reperfusion model was made by ligating anterior descending coronary artery for 90 minutes followed by 120-minute reperfusion in 15 healthy mongrel dogs. Images were acquired at baseline and after reperfusion. Adenosine was then infused and image acquisition repeated. Regional peak-systolic strain in radial, circumferential and longitudinal motion on anterior wall and anterior septum were measured. TTC staining served as a "gold standard" to define viable and nonviable myocardium. The ratio of infarct area (S(N)) to total area (S) was calculated and viable myocardium was defined with S(N)/S ≤ 50%.
RESULTS
at baseline, RS(peak sys), CS(peak sys) and LS(peak sys) were similar between viable (n = 37) and nonviable myocardial segments (n = 53) and significantly decreased after reperfusion in both viable and nonviable myocardial segments. Compared with values obtained after reperfusion, LS(peak sys) and RS(peak sys) remained unchanged in nonviable myocardial segments and significantly increased in viable myocardial segments after adenosine (P < 0.05). Post adenosine RS(peak sys) was negatively correlated with S(N)/S and CS(peak sys) and LS(peak sys) were positively correlated with S(N)/S. With ΔRS(peak-sys) (before and after adenosine) ≥ 13.5%, the sensitivity was 83.8% and specificity was 83.0% for distinguishing viable from nonviable myocardial segment. With ΔLS(peak sys) ≥ 11% as cutoff value, the sensitivity was 78.4% and specificity was 88.7% for distinguishing viable from nonviable myocardial segment. Combining ΔRS(peak sys) and ΔLS(peak sys), the sensitivity and specificity for distinguishing viable from nonviable myocardial segment were 91.9% and 79.2%, respectively.
CONCLUSIONS
two-dimensional strain imaging combined with adenosine stress echocardiography could quantitatively identify viable and nonviable myocardium.
目的
探讨二维应变成像联合腺苷负荷超声心动图评估存活心肌的可行性。
方法
对15只健康杂种犬结扎冠状动脉前降支90分钟,再灌注120分钟,制作急性心肌梗死及再灌注模型。在基线期和再灌注后采集图像。然后静脉输注腺苷并重复图像采集。测量前壁和前间隔径向、圆周向及纵向运动的区域峰值收缩期应变。TTC染色作为界定存活心肌和非存活心肌的“金标准”。计算梗死面积(S(N))与总面积(S)的比值,以S(N)/S≤50%定义存活心肌。
结果
基线时,存活心肌节段(n = 37)与非存活心肌节段(n = 53)的RS(peak sys)、CS(peak sys)及LS(peak sys)相似,再灌注后存活和非存活心肌节段的上述指标均显著降低。与再灌注后的值相比,腺苷注射后非存活心肌节段的LS(peak sys)和RS(peak sys)保持不变,而存活心肌节段则显著增加(P < 0.05)。腺苷注射后RS(peak sys)与S(N)/S呈负相关,CS(peak sys)和LS(peak sys)与S(N)/S呈正相关。以ΔRS(peak-sys)(腺苷注射前后)≥13.5%为标准,区分存活与非存活心肌节段的敏感性为83.8%,特异性为83.0%。以ΔLS(peak sys)≥11%为截断值,区分存活与非存活心肌节段的敏感性为78.4%,特异性为88.7%。联合ΔRS(peak sys)和ΔLS(peak sys),区分存活与非存活心肌节段的敏感性和特异性分别为91.9%和79.2%。
结论
二维应变成像联合腺苷负荷超声心动图可定量识别存活心肌和非存活心肌。
Zotero 插件