Engels Elien B, Vis Annemijn, van Rees Bianca D, Marcantoni Lina, Zanon Francesco, Vernooy Kevin, Prinzen Frits W
Department of Physiology, Cardiovascular Research Institute Maastricht, Maastricht University, Maastricht, the Netherlands; Department of Medicine, University of Western Ontario, London, Ontario, Canada.
Department of Physiology, Cardiovascular Research Institute Maastricht, Maastricht University, Maastricht, the Netherlands.
J Electrocardiol. 2018 Nov-Dec;51(6S):S61-S66. doi: 10.1016/j.jelectrocard.2018.07.011. Epub 2018 Jul 17.
The recently developed quadripolar left ventricular (LV) leads have been developed to increase the benefit of cardiac resynchronization therapy (CRT). These leads offer the option to stimulate the LV on multiple sites (multipoint pacing, MPP). Invasive haemodynamic measurements have shown that MPP increases haemodynamic response.
To investigate whether the beneficial effect of MPP can be explained by better electrical resynchronization.
Different LV lead locations were tested during biventricular (BiV) pacing and MPP in 29 CRT candidates. The 12-lead electrocardiogram (ECG) and the invasive LV pressure curves were measured simultaneously. The Kors matrix was used to convert the ECG into a vectorcardiogram (VCG). The acute haemodynamic benefit of MPP was compared with the reduction in QRS duration and VCG-derived QRS area.
Out of the 29 patients, three patients were excluded due to missing LV pressures or ECG measurements. In the remaining 26 patients MPP resulted in a significant haemodynamic improvement compared to BiV pacing without a significant change in QRS duration and QRS area. In only 5 out of the 26 patients the QRS area decreased during MPP compared to BiV pacing. In 17 patients MPP did not change QRS duration and significantly increased QRS area but moved the direction of the maximal QRS vector (azimuth) more opposite from baseline compared to BiV pacing. In 4 patients the QRS area was small during baseline, indicating limited electrical dyssynchrony.
The acute haemodynamic benefit of MPP over BiV pacing is achieved by either electrical resynchronization (reduction in QRS area) or by a rotation of the maximal QRS vector, indicating a more LV dominated activation sequence. The latter property was found in two-thirds of the cohort studied.
最近研发的四极左心室(LV)导联旨在提高心脏再同步治疗(CRT)的益处。这些导联提供了在多个部位刺激左心室的选择(多点起搏,MPP)。有创血流动力学测量表明,MPP可增加血流动力学反应。
研究MPP的有益效果是否可通过更好的电同步来解释。
在29例CRT候选患者的双心室(BiV)起搏和MPP期间测试不同的左心室导联位置。同时测量12导联心电图(ECG)和有创左心室压力曲线。使用Kors矩阵将ECG转换为向量心电图(VCG)。将MPP的急性血流动力学益处与QRS时限缩短和VCG衍生的QRS面积减小进行比较。
29例患者中,3例因缺少左心室压力或ECG测量数据而被排除。在其余26例患者中,与BiV起搏相比,MPP导致显著的血流动力学改善,而QRS时限和QRS面积无显著变化。与BiV起搏相比,26例患者中只有5例在MPP期间QRS面积减小。在17例患者中,MPP未改变QRS时限,但显著增加了QRS面积,但与BiV起搏相比,最大QRS向量(方位角)的方向与基线相比更相反。在4例患者中,基线时QRS面积较小,表明电不同步有限。
MPP相对于BiV起搏的急性血流动力学益处是通过电同步(QRS面积减小)或最大QRS向量的旋转来实现的,这表明左心室激活序列占主导地位。在三分之二的研究队列中发现了后一种特性。
