Gornick C C, Adler S W, Pederson B, Hauck J, Budd J, Schweitzer J
University of Minnesota, Veterans Affairs Medical Center, Minneapolis, Minn. 55417, USA.
Circulation. 1999 Feb 16;99(6):829-35. doi: 10.1161/01.cir.99.6.829.
Improvements in cardiac mapping are required to advance our understanding and treatment of arrhythmias. This study validated a new noncontact multielectrode array catheter and accompanying analysis system to provide electroanatomic mapping of the entire left ventricular (LV) endocardium during a single beat.
A 9F 64-electrode balloon array catheter with an inflated size of 1.8x4.6 cm was used to simultaneously record electrical potentials generated by the heart and locate a standard electrophysiology (EP) catheter within the same chamber. By use of the recorded location of the EP-catheter tip, LV geometry was determined. Array potentials served as inputs to a high-order boundary-element method to produce 3360 potential points on the endocardial surface translatable into electrograms or color-coded activation maps. Three methods of validation were used: (1) driven electrodes in an in vitro tank were located; (2) waveforms generated from the array catheter were compared with catheter contact waveforms in canine LV; and (3) sites of local LV endocardial activation were located and marked with radiofrequency lesions. Tank testing located a driven electrode to within 2.33+/-0.44 mm. Correlation of timing and morphology of computed versus contact electrograms was 0.966. Radiofrequency lesions marked 17 endocardial pacing sites to within 4.0+/-3.2 mm.
This new system provides anatomically accurate endocardial isopotential mapping during a single cardiac cycle. The locator component enabled placement of a separate EP catheter to any site within the mapped chamber.
为了增进我们对心律失常的理解和治疗,需要改进心脏标测技术。本研究验证了一种新型非接触式多电极阵列导管及配套分析系统,以在单次心跳期间提供整个左心室(LV)心内膜的电解剖标测。
使用一种9F 64电极球囊阵列导管,其膨胀尺寸为1.8×4.6 cm,用于同时记录心脏产生的电位,并在同一心腔内定位标准电生理(EP)导管。通过使用记录的EP导管尖端位置,确定左心室几何形状。阵列电位作为高阶边界元法的输入,以在心内膜表面产生3360个电位点,可转换为心电图或彩色编码激活图。使用了三种验证方法:(1)在体外水槽中定位驱动电极;(2)将阵列导管产生的波形与犬左心室中的导管接触波形进行比较;(3)定位左心室局部心内膜激活部位并用射频损伤标记。水槽测试将驱动电极定位在2.33±0.44 mm范围内。计算心电图与接触心电图的时间和形态相关性为0.966。射频损伤将17个心内膜起搏部位标记在4.0±3.2 mm范围内。
这种新系统在单个心动周期内提供解剖学上准确的心内膜等电位标测。定位组件能够将单独的EP导管放置在标测心腔内的任何部位。
