Fuchs S, Hendel R C, Baim D S, Moses J W, Pierre A, Laham R J, Hong M K, Kuntz R E, Pietrusewicz M, Bonow R O, Mintz G S, Leon M B, Kornowski R
Myocardial Revascularization Program, The Cardiovascular Research Foundation, Washington Hospital Center, Washington, DC 20010, USA.
Am J Cardiol. 2001 Apr 1;87(7):874-80. doi: 10.1016/s0002-9149(00)01529-0.
The assessment of left ventricular electromechanical activity using a novel, nonfluoroscopic 3-dimensional mapping system demonstrates considerable differences in electrical and mechanical activities within regions of myocardial infarction or ischemia. We sought to determine whether these changes correlate with indexes of myocardial perfusion, viability, or ischemia. A 12-segment comparative analysis was performed in 61 patients (45 men, 61 +/- 12 years old) with class III to IV angina, having reversible and/or fixed myocardial perfusion defects on single-photon emission computed tomographic perfusion imaging. A dual-isotope protocol was used, consisting of rest and 4-hour redistribution thallium images followed by adenosine technetium-99m sestamibi imaging. Average rest endocardial unipolar voltage (UpV) and local shortening (LS) mapping values were compared with visually derived perfusion scores. There was gradual and proportional reduction in regional UpV and LS in relation to thallium-201 uptake score at rest (p = 0.0001 and p = 0.0002, respectively) and redistribution studies (p = 0.0001 and p = 0.003, respectively). UpV > or = 7.4 mV and LS > or = 5.0% had a sensitivity of 78% and 65%, respectively, with a specificity of 68% and 67% for detecting viable myocardium. UpV values of 12.3 and 5.4 mV had 90% specificity and sensitivity, respectively, to predict viable tissue. UpV, but not LS, values differentiated between normal segments and those with adenosine-induced severe perfusion defects (11.8 +/- 5.3 vs 8.8 +/- 4.1 mV, p = 0.005). Catheter-based left ventricular assessment of electromechanical activity correlates with the degree of single-photon emission computed tomographic perfusion abnormality and can identify myocardial viability with a greater accuracy than myocardial ischemia.
使用一种新型非荧光三维标测系统对左心室机电活动进行评估,结果显示心肌梗死或缺血区域内的电活动和机械活动存在显著差异。我们试图确定这些变化是否与心肌灌注、存活或缺血指标相关。对61例(45例男性,年龄61±12岁)Ⅲ至Ⅳ级心绞痛患者进行了12节段对比分析,这些患者在单光子发射计算机断层扫描灌注成像上有可逆和/或固定的心肌灌注缺损。采用双同位素方案,包括静息和4小时再分布铊显像,随后进行腺苷锝-99m sestamibi显像。将平均静息心内膜单极电压(UpV)和局部缩短(LS)标测值与视觉得出的灌注评分进行比较。静息时区域UpV和LS与铊-201摄取评分呈逐渐且成比例的降低(分别为p = 0.0001和p = 0.0002),再分布研究中也是如此(分别为p = 0.0001和p = 0.003)。UpV≥7.4 mV和LS≥5.0%检测存活心肌的敏感性分别为78%和65%,特异性分别为68%和67%。UpV值为12.3和5.4 mV预测存活组织的特异性和敏感性分别为90%。UpV值而非LS值可区分正常节段和腺苷诱发严重灌注缺损的节段(11.8±5.3对8.8±4.1 mV,p = 0.005)。基于导管的左心室机电活动评估与单光子发射计算机断层扫描灌注异常程度相关,并且比心肌缺血更准确地识别心肌存活情况。
