Nakai Kenji, Izumoto Hiroshi, Kawazoe Kohei, Tsuboi Junichi, Fukuhiro Yoshiaki, Oka Takanori, Yoshioka Kunihiro, Shozushima Masanori, Itoh Manabu, Suwabe Akira, Yoshizawa Masahito
The Department of Laboratory Medicine, Iwate Medical University, 19-1 Uchimaru, Morioka, 020-8505, Japan.
Int J Cardiovasc Imaging. 2006 Jun-Aug;22(3-4):573-80. doi: 10.1007/s10554-005-9019-x. Epub 2005 Nov 24.
QT dispersion reveals heterogeneities in the repolarization time in the three-dimensional (3D) structure of the ventricular myocardium. In this study, we report on a 3D function map of recovery time (RT) dispersions as measured by 64-channel magnetocardiography (MCG).
MCG were simultaneously recorded in 29 controls and 21 patients with previous myocardial infarction (MI). The 3D current density was calculated from 64-channel MCG data in the Bz component using a space filter. The heart outline, reconstructed from the integrated the current density, revealed both the atrium and ventricle. The RT for the intervals between QRS onset and the time of the maximum dT/dt of T wave, and the peak to the end of the T wave (T(peak)-negative dT/dt) were automatically measured by means of a computer from 3D MCG data. The corrected RT (RTc) and corrected T(peak)-negative dT/dt were then calculated using Bazett's formula. The 3D RTc and the corrected T(peak)-negative dT/dt dispersion map were superimposed on the heart outline generated by MCG.
The RTc was significantly longer for the MI group than in the control group (67+/-25 ms1/2 vs. 16+/-6 ms1/2) (p<0.0001). The corrected T(peak)-negative dT/dt dispersions in each patient was also significantly longer for the MI group than in the control group (35+/-27 ms1/2 vs. 10+/-5 ms1/2) (p<0.0001). Furthermore, the 3D RTc and T(peak)-negative dT/dt dispersion maps corresponded with the space location of MI, as defined by Tc-99m tetrofosmin myocardial imaging
3D RTc and T(peak)-negative dT/dt dispersion maps in the ST segment, obtained by 64-channel MCG may be used demonstrate the location of a myocardial injury and heterogeneities of repolarization.
QT离散度揭示了心室心肌三维(3D)结构中复极时间的异质性。在本研究中,我们报告了通过64通道磁心动图(MCG)测量的恢复时间(RT)离散度的三维功能图。
对29名对照组和21名既往有心肌梗死(MI)的患者同时进行MCG记录。使用空间滤波器从Bz分量的64通道MCG数据计算三维电流密度。从整合的电流密度重建的心脏轮廓显示了心房和心室。通过计算机从三维MCG数据中自动测量QRS起始至T波最大dT/dt时间以及T波峰值至结束(T(峰值)-负dT/dt)的间期的RT。然后使用Bazett公式计算校正后的RT(RTc)和校正后的T(峰值)-负dT/dt。将三维RTc和校正后的T(峰值)-负dT/dt离散度图叠加在由MCG生成的心脏轮廓上。
MI组的RTc显著长于对照组(67±25 ms1/2对16±6 ms1/2)(p<0.0001)。MI组每位患者校正后的T(峰值)-负dT/dt离散度也显著长于对照组(35±27 ms1/2对10±5 ms1/2)(p<0.0001)。此外,三维RTc和T(峰值)-负dT/dt离散度图与由锝-99m替曲膦心肌显像定义的MI空间位置相对应。
通过64通道MCG获得的ST段三维RTc和T(峰值)-负dT/dt离散度图可用于显示心肌损伤的位置和复极的异质性。
