Kornowski R, Hong M K, Leon M B
Washington Hospital Center, The Cardiology Research Foundation, Washington, DC, USA.
Circulation. 1998 Nov 3;98(18):1837-41. doi: 10.1161/01.cir.98.18.1837.
A novel 3-dimensional left ventricular (LV) mapping system uses low-intensity magnetic field energy to determine the location of sensor-tipped electrode catheters within the LV. Using this system, we sought to distinguish between infarcted, ischemic, and normal myocardium by comparing LV electromechanical mapping data with myocardial perfusion imaging studies.
Unipolar voltage potentials and local endocardial shortening (LS) were measured in 18 patients (mean age, 58+/-12 years) with symptomatic chronic angina having reversible and/or fixed myocardial perfusion defects on single photon emission computed tomography imaging studies using 201Tl at rest and 99mTc-sestamibi after adenosine stress. Overall, a significant difference in voltage potentials and LS values was found between groups (P<0.001 for each comparison by ANOVA). The average voltage potentials (14.0+/-2.0 mV) and LS values (12.5+/-2.8%) were highest when measured in myocardial segments (n=56) with normal perfusion and lowest (7.5+/-3.4 mV and 3.4+/-3.4%) when measured in myocardial segments with fixed perfusion defects (n=20) (P<0.0001). Myocardial segments with reversible perfusion defects (n=66) had intermediate voltage amplitudes (12.0+/-2.8 mV, P=0.048 versus normal and P=0.005 versus fixed segments) and LS values (10.3+/-3.7%, P=0.067 versus normal and P=0.001 versus fixed segments).
In patients with myocardial ischemia, LV mapping, compared with myocardial perfusion imaging, shows (1) mild reduction of endocardial voltage potentials and LS in segments with reversible perfusion defects and (2) profound electromechanical impairment in segments with fixed perfusion defects. Thus, such an LV mapping procedure may allow the detection on-line of myocardial viability in the catheterization laboratory.
一种新型的三维左心室(LV)标测系统利用低强度磁场能量来确定带有传感器的电极导管在左心室内的位置。利用该系统,我们试图通过比较左心室机电标测数据与心肌灌注成像研究,来区分梗死心肌、缺血心肌和正常心肌。
对18例有症状的慢性心绞痛患者(平均年龄58±12岁)进行单极电压电位和局部心内膜缩短(LS)测量,这些患者在静息状态下使用201Tl以及腺苷负荷后使用99mTc - sestamibi进行单光子发射计算机断层扫描成像研究时存在可逆性和/或固定性心肌灌注缺损。总体而言,各组之间电压电位和LS值存在显著差异(方差分析每次比较P<0.001)。在灌注正常的心肌节段(n = 56)中测量时,平均电压电位(14.0±2.0 mV)和LS值(12.5±2.8%)最高,而在有固定灌注缺损的心肌节段(n = 20)中测量时最低(7.5±3.4 mV和3.4±3.4%)(P<0.0001)。有可逆灌注缺损的心肌节段(n = 66)具有中等电压幅度(12.0±2.8 mV,与正常节段相比P = 0.048,与固定节段相比P = 0.005)和LS值(10.3±3.7%,与正常节段相比P = 0.067,与固定节段相比P = 0.001)。
在心肌缺血患者中,与心肌灌注成像相比,左心室标测显示:(1)有可逆灌注缺损的节段心内膜电压电位和LS轻度降低;(2)有固定灌注缺损的节段存在严重的机电功能损害。因此,这种左心室标测程序可能允许在导管室在线检测心肌存活情况。
