电极密度对人类持续性心房颤动心外膜标测中房性激动模式解读的影响。
The effect of electrode density on the interpretation of atrial activation patterns in epicardial mapping of human persistent atrial fibrillation.
作者信息
Walters Tomos E, Lee Geoffrey, Spence Steven, Kalman Jonathan M
机构信息
Department of Cardiology, Royal Melbourne Hospital, Melbourne, Australia; Department of Medicine, University of Melbourne, Melbourne, Australia.
Department of Cardiology, Royal Melbourne Hospital, Melbourne, Australia.
出版信息
Heart Rhythm. 2016 Jun;13(6):1215-20. doi: 10.1016/j.hrthm.2016.01.030. Epub 2016 Jan 29.
BACKGROUND
Mechanisms sustaining human persistent atrial fibrillation (AF) remain debated, with significant differences between high-density epicardial and global endocardial mapping studies. A key difference is the density of recording electrodes.
OBJECTIVE
We aimed to determine the differences in the prevalence of different atrial activation patterns, and specifically in the prevalence of rotational activations, with varying densities of bipolar electrodes.
METHODS
Epicardial mapping was performed in 10 patients undergoing cardiac surgery, with bipolar electrograms recorded using a triangular plaque (6.75 cm(2) area; 117 bipoles; 2.5-mm inter-bipole spacing) applied to the left atrial posterior wall or right atrial free wall. Dynamic wavefront mapping based on the timing of atrial electrograms was applied to 2 discrete 10-second AF segments. The spacing between bipolar electrode locations was increased from 2.5 × 3.5 mm in the horizontal and oblique directions to 5.0 × 3.5, 5.0 × 7.1, and 7.5 × 10.6 mm, with wavefront mapping repeated at each density.
RESULTS
As density reduced, there was a significant change in relative proportions of the various activation patterns (F=3.69; P < .001). Simple broad wavefront activations became more prevalent (20% ± 8% to 54% ± 8%; P < .05) and complex patterns became less prevalent (48% ± 8% to 9% ± 8%; P < .05) with reducing density. The prevalence of rotational activity declined with bipole density, from median 5.0% (range 0.9%-12.1%) to 0% (range 0%-1.5%) (P = .03). The largest change occurred between inter-bipole spacings of 5.0 × 3.5 and 5.0 × 7.1 mm.
CONCLUSION
Apparent activation patterns in persistent AF vary significantly with electrode density. Low density underestimates the prevalence of complex and rotational patterns. The largest difference occurs between an inter-bipole spacing of 5.0 × 3.5 and a spacing of 5.0 × 7.1 mm. This may have important implications for mapping technology design.
背景
维持人类持续性心房颤动(AF)的机制仍存在争议,高密度心外膜标测研究与整体心内膜标测研究之间存在显著差异。一个关键差异在于记录电极的密度。
目的
我们旨在确定不同心房激动模式的发生率差异,特别是旋转激动的发生率,以及双极电极密度变化时的情况。
方法
对10例接受心脏手术的患者进行心外膜标测,使用三角形斑块(面积6.75 cm²;117个双极;双极间距2.5 mm)记录左心房后壁或右心房游离壁的双极电图。基于心房电图时间的动态波前标测应用于2个离散的10秒房颤节段。双极电极位置之间的间距在水平和倾斜方向上从2.5×3.5 mm增加到5.0×3.5、5.0×7.1和7.5×10.6 mm,每种密度下都重复进行波前标测。
结果
随着密度降低,各种激动模式的相对比例发生了显著变化(F = 3.69;P <.001)。随着密度降低,简单的宽波前激动变得更为普遍(从20%±8%增至54%±8%;P <.05),而复杂模式变得不那么普遍(从48%±8%降至9%±8%;P <.05)。旋转活动的发生率随双极密度下降,从中位数5.0%(范围0.9% - 12.1%)降至0%(范围0% - 1.5%)(P =.03)。最大的变化发生在双极间距为5.0×3.5和5.0×7.1 mm之间。
结论
持续性房颤中的明显激动模式随电极密度显著变化。低密度会低估复杂和旋转模式的发生率。最大差异出现在双极间距为5.0×3.5和5.0×7.1 mm之间。这可能对标测技术设计具有重要意义。
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