利用手术和生物物理参数预测冷冻球囊消融术后的早期再连接

Predicting early reconnection after cryoballoon ablation with procedural and biophysical parameters.

作者信息

Keçe Fehmi, de Riva Marta, Alizadeh Dehnavi Reza, Wijnmaalen Adrianus P, Mertens Bart J, Schalij Martin J, Zeppenfeld Katja, Trines Serge A

机构信息

Department of Cardiology, Heart Lung Center, Leiden University Medical Center, Leiden, The Netherlands.

Bioinformatics Center of Expertise, Leiden University Medical Center, Leiden, The Netherlands.

出版信息

Heart Rhythm O2. 2021 Mar 19;2(3):290-297. doi: 10.1016/j.hroo.2021.03.007. eCollection 2021 Jun.

DOI:10.1016/j.hroo.2021.03.007

PMID:34337580

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8322820/

Abstract

BACKGROUND

Predicting early reconnection/dormant conduction (ERC) immediately after pulmonary vein isolation (PVI) can avoid a waiting period with adenosine testing.

OBJECTIVE

To identify procedural and biophysical parameters predicting ERC.

METHODS

Consecutive atrial fibrillation (AF) patients undergoing a first cryoballoon ablation (Arctic Front Advance) between 2014 and 2017 were included. ERC was defined as manifest or dormant pulmonary vein (PV) reconnection with adenosine 30 minutes after PVI. Time to isolation (TTI), balloon temperatures (BT), and thawing times were evaluated as potential predictors for ERC. Based on a multivariable model, cut-off-values were defined and a formula was constructed to be used in clinical practice.

RESULTS

A total of 136 patients (60 ± 10 years, 96 male, 95% paroxysmal AF) were included. ERC was found in 40 (29%) patients (ERC group) and in 53 of 575 (9%) veins. Procedural and total ablation time and the number of unsuccessful freezes were significantly longer/higher in the ERC group compared to the non-ERC group (150 ± 40 vs 125 ± 34 minutes; 24 ± 5 vs 17 ± 4 minutes, and 38% vs 24%, respectively ( = .028). Multivariable analysis showed that a higher nadir balloon temperature (hazard ratio [HR] 1.17 [1.09-1.23, < .001), a higher number of unsuccessful freezes (HR 1.69 [1.15-2.49], = .008) and a longer TTI (HR 1.02 [1.01-1.03], < .001) were independently associated with ERC, leading to the following formula: 0.02 × TTI + 0.5 × number of unsuccessful freezes + 0.2 × nadir BT with a cut-off value of ≤-6.7 to refrain from a waiting period with adenosine testing.

CONCLUSION

Three easily available parameters were associated with ERC. Using these parameters during ablation can help to avoid a 30-minute waiting period and adenosine testing.

摘要

背景

预测肺静脉隔离（PVI）后立即出现的早期再连接/隐匿性传导（ERC）可避免腺苷试验的等待期。

目的

确定预测ERC的手术和生物物理参数。

方法

纳入2014年至2017年间接受首次冷冻球囊消融术（Arctic Front Advance）的连续房颤（AF）患者。ERC定义为PVI后30分钟时出现明显或隐匿性肺静脉（PV）再连接。将隔离时间（TTI）、球囊温度（BT）和解冻时间评估为ERC的潜在预测因素。基于多变量模型，定义临界值并构建一个用于临床实践的公式。

结果

共纳入136例患者（60±10岁，男性96例，95%为阵发性房颤）。40例（29%）患者（ERC组）及575条肺静脉中的53条（9%）发现有ERC。与非ERC组相比，ERC组的手术和总消融时间以及冷冻失败次数明显更长/更多（分别为150±40分钟对125±34分钟；24±5分钟对17±4分钟，以及38%对24%，P = 0.028）。多变量分析显示，更低的最低球囊温度（风险比[HR]1.17[1.09 - 1.23]，P < 0.001）、更高的冷冻失败次数（HR 1.69[1.15 - 2.49]，P = 0.008）和更长的TTI（HR 1.02[1.01 - 1.03]，P < 0.001）与ERC独立相关，得出以下公式：0.02×TTI + 0.5×冷冻失败次数 + 0.2×最低BT，临界值≤ - 6.7时可避免腺苷试验的等待期。

结论

三个易于获取的参数与ERC相关。在消融过程中使用这些参数有助于避免30分钟的等待期和腺苷试验。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a26c/8322820/2a748a9d8dff/gr1.jpg

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利用手术和生物物理参数预测冷冻球囊消融术后的早期再连接

Predicting early reconnection after cryoballoon ablation with procedural and biophysical parameters.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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