Yin L X, Li C M, Fu Q G, Lo Y, Huang Q H, Cai L, Zheng Z X
Echocardiography Laboratory, Sichuan Provincial Hospital, Chengdu, PR China.
J Am Coll Cardiol. 1999 Mar;33(3):782-7. doi: 10.1016/s0735-1097(98)00605-6.
The purpose of this study is to validate the use of tissue Doppler acceleration imaging (TDAI) for evaluation of the onset of ventricular contraction in humans.
Tissue Doppler acceleration imaging can display the distribution, direction and value of ventricular acceleration responses to myocardial contraction and electrical excitation.
Twenty normal volunteers underwent TDAI testing to determine the normal onset of ventricular acceleration. Two patients with paroxysmal supraventricular tachycardia and 30 patients with permanent pacemakers underwent introduction of esophageal and right ventricular pacing electrodes, respectively, and were studied to visualize the onset of pacer-induced ventricular acceleration. Eight patients with dual atrioventricular (AV) node and 20 patients with Wolff-Parkinson-White (WPW) syndrome underwent TDAI testing to localize the abnormal onset of ventricular acceleration, and the results were compared with those of intracardiac electrophysiology (ICEP) tests.
The normal onset and the onset of dual AV node were localized at the upper interventricular septum (IVS) under the right coronary cusp within 25 ms before the beginning of the R wave in the electrocardiogram (ECG). In all patients in the pacing group, the location and timing of the onset conformed to the positions and timing of electrodes (100%). In patients with WPW syndrome, abnormal onset was localized to portions of the ventricular wall other than the upper IVS at the delta wave or within 25 ms after the delta wave in the ECG. The agreement was 90% (18 of 20) between the abnormal onset and the position of the accessory pathways determined by ICEP testing.
These results suggest that TDAI is a useful noninvasive method that frequently is successful in visualizing the intramural site of origin of ventricular mechanical contraction.
本研究旨在验证组织多普勒加速度成像(TDAI)在评估人体心室收缩起始方面的应用。
组织多普勒加速度成像可显示心室对心肌收缩和电激动的加速度反应的分布、方向和数值。
20名正常志愿者接受TDAI检测以确定心室加速度的正常起始情况。2名阵发性室上性心动过速患者和30名永久性起搏器患者分别进行食管和右心室起搏电极置入,并研究以观察起搏器诱发的心室加速度的起始情况。8名双房室结患者和20名预激综合征(WPW)患者接受TDAI检测以定位心室加速度异常起始部位,并将结果与心内电生理(ICEP)检测结果进行比较。
正常起始和双房室结起始位于右冠状动脉瓣下方的室间隔上部,在心电图(ECG)R波开始前25毫秒内。起搏组所有患者的起始位置和时间与电极的位置和时间相符(100%)。在WPW综合征患者中,异常起始位于心室壁除室间隔上部以外的部分,在心电图δ波时或δ波后25毫秒内。TDAI检测确定的异常起始与ICEP检测确定的旁路位置之间的一致性为90%(20例中的18例)。
这些结果表明,TDAI是一种有用的非侵入性方法,常常能够成功地显示心室机械收缩的壁内起源部位。
