Lambiase P D, Rinaldi A, Hauck J, Mobb M, Elliott D, Mohammad S, Gill J S, Bucknall C A
Department of Cardiology, St Thomas' Hospital, London, UK.
Heart. 2004 Jan;90(1):44-51. doi: 10.1136/heart.90.1.44.
Up to 30% of patients with heart failure do not respond to cardiac resynchronisation therapy (CRT). This may reflect placement of the coronary sinus lead in regions of slow conduction despite optimal positioning on current criteria.
To characterise the effect of CRT on left ventricular activation using non-contact mapping and to examine the electrophysiological factors influencing optimal left ventricular lead placement.
and results: 10 patients implanted with biventricular pacemakers were studied. In six, the coronary sinus lead was found to be positioned in a region of slow conduction with an average conduction velocity of 0.4 m/s, v 1.8 m/s in normal regions (p < 0.02). Biventricular pacing with the left ventricle paced 32 ms before the right induced the optimal mean velocity time integral and timing for fusion of depolarisation wavefronts from the right and left ventricular pacing sites. Pacing outside regions of slow conduction decreased left ventricular activation time and increased cardiac output and dP/dt(max) significantly.
In patients undergoing CRT for heart failure, non-contact mapping can identify regions of slow conduction. Significant haemodynamic improvements can occur when the site of left ventricular pacing is outside these slow conduction areas. Failure of CRT to produce clinical benefits may reflect left ventricular lead placement in regions of slow conduction which can be overcome by pacing in more normally activating regions.
高达30%的心力衰竭患者对心脏再同步治疗(CRT)无反应。这可能反映了尽管根据当前标准进行了最佳定位,但冠状窦导线仍放置在传导缓慢的区域。
使用非接触式标测来描述CRT对左心室激活的影响,并研究影响左心室导线最佳放置的电生理因素。
对10例植入双心室起搏器的患者进行了研究。其中6例患者的冠状窦导线位于传导缓慢的区域,平均传导速度为0.4m/s,而正常区域为1.8m/s(p<0.02)。左心室比右心室提前32ms起搏的双心室起搏诱导了来自右心室和左心室起搏部位的去极化波前融合的最佳平均速度时间积分和时机。在传导缓慢区域之外进行起搏可显著缩短左心室激活时间,并增加心输出量和dP/dt(max)。
在接受CRT治疗心力衰竭的患者中,非接触式标测可识别传导缓慢的区域。当左心室起搏部位位于这些传导缓慢区域之外时,可显著改善血流动力学。CRT未能产生临床益处可能反映了左心室导线放置在传导缓慢的区域,而在激活更正常的区域进行起搏可克服这一问题。