AlTurki Ahmed, Lima Pedro Y, Garcia Daniel, Montemezzo Mauricio, Al-Dosari Alaa, Vidal Alejandro, Toscani Bruno, Diaz Sergio, Bernier Martin, Hadjis Tomy, Joza Jacqueline, Essebag Vidal
Division of Cardiology, McGill University Health Center, Montreal, Canada.
Division of Cardiology, McGill University Health Center, Montreal, Canada.
J Electrocardiol. 2019 Sep-Oct;56:94-99. doi: 10.1016/j.jelectrocard.2019.07.008. Epub 2019 Jul 16.
Optimal programming of cardiac resynchronization therapy (CRT) has not yet been fully elucidated. A novel algorithm (SyncAV) has been developed to improve electrical synchrony by fusion of the triple wavefronts: intrinsic, right ventricular (RV)-paced, and left ventricular (LV)-paced.
Consecutive patients at a single tertiary care center with a previously implanted CRT device with SyncAV algorithm (programmable negative AV hysteresis) were evaluated. QRS duration (QRSd) was measured during 1) intrinsic conduction, 2) existing CRT pacing as chronically programmed by treating physician, 3) using the device-based QuickOpt™ algorithm for optimization of AV and VV delays, and 4) ECG-based optimized SyncAV programming. The paced QRSd was assessed and compared to intrinsic conduction and between the different modes of programming.
Of 64 consecutive, potentially eligible patients who underwent assessment, 34 patients who were able to undergo SyncAV programming were included. Mean intrinsic conduction QRSd was 163 ± 24 ms. In comparison, the mean QRSd was 152 ± 25 ms (-11.1 ± 19.0) during existing CRT pacing, 160 ± 25 ms (-4.1 ± 25.2) using the QuickOpt™ algorithm and 138 ± 23 (-24.9 ± 17.2) using ECG-based optimized SyncAV programming. SyncAV optimization resulted in significant reductions in QRSd compared to existing CRT pacing (P = 0.02) and QuickOpt™ (P < 0.001). Of the 32% of patients who did not have QRS narrowing with existing CRT, 72% experienced QRS narrowing with SyncAV.
ECG-based atrio-ventricular delay optimization using SyncAV significantly improved electrical synchrony in patients with a previously implanted CRT. Further studies are needed to assess the impact on long-term outcomes.
心脏再同步治疗(CRT)的最佳程控尚未完全阐明。已开发出一种新型算法(SyncAV),通过融合三种波阵面(自身心律、右心室起搏和左心室起搏)来改善电同步性。
对一家三级医疗中心连续的患者进行评估,这些患者先前已植入带有SyncAV算法(可编程负性房室滞后)的CRT设备。在以下情况下测量QRS波时限(QRSd):1)自身心律传导;2)按照治疗医生长期程控的现有CRT起搏;3)使用基于设备的QuickOpt™算法优化房室和室间延迟;4)基于心电图的优化SyncAV程控。评估起搏QRSd,并与自身心律传导以及不同程控模式之间进行比较。
在接受评估的64例连续的潜在符合条件的患者中,有34例能够进行SyncAV程控并被纳入研究。平均自身心律传导QRSd为163±24毫秒。相比之下,现有CRT起搏时的平均QRSd为152±25毫秒(-11.1±19.0),使用QuickOpt™算法时为160±25毫秒(-4.1±25.2),基于心电图的优化SyncAV程控时为138±23毫秒(-24.9±17.2)。与现有CRT起搏(P = 0.02)和QuickOpt™(P < 0.001)相比,SyncAV优化导致QRSd显著缩短。在现有CRT起搏时QRS波未变窄的患者中,32%在SyncAV程控时有72%的患者QRS波变窄。
使用SyncAV进行基于心电图的房室延迟优化可显著改善先前植入CRT患者的电同步性。需要进一步研究以评估对长期结局的影响。
