P 波后半段新参数、P 波时限和心房传导时间可预测电生理研究期间的心房颤动。
New Parameter of the Second Half of the P-Wave, P-Wave Duration, and Atrial Conduction Times Predict Atrial Fibrillation during Electrophysiological Studies.
机构信息
Department of Electrophysiology and Arrhythmology, Cardiovascular Hospital "Ernesto Guevara", Santa Clara, Cuba.
Department of Physiology, Medical University of Villa Clara, Santa Clara, Cuba.
出版信息
Med Princ Pract. 2021;30(5):462-469. doi: 10.1159/000518262. Epub 2021 Jul 7.
OBJECTIVE
Several P-wave parameters reflect atrial conduction characteristics and have been used to predict atrial fibrillation (AF). The aim of this study was to determine the relationship between maximum P-wave duration (PMax) and new P-wave parameters, with atrial conduction times (CT), and to assess their predictive value of AF during electrophysiological studies (AF-EPS).
SUBJECTS AND METHODS
This was a cross-sectional study in 153 randomly selected patients aged 18-70 years, undergoing EPS. The patients were divided into 2 groups designated as no AF-EPS and AF-EPS, depending on whether AF occurred during EPS or not. Different P-wave parameters and atrial CT were compared for both study groups. Subsequently, the predictive value of the P-wave parameters and the atrial CT for AF-EPS was evaluated.
RESULTS
The values of CT, PMax, and maximum Ppeak-Pend interval (Pp-eMax) were significantly higher in patients with AF-EPS. Almost all P-wave parameters were correlated with the left CT. PMax, Pp-eMax, and CT were univariate and multivariate predictors of AF-EPS. The largest ROC area was presented by interatrial CT (0.852; p < 0.001; cutoff value: ≥82.5 ms; sensitivity: 91.1%; specificity: 81.1%). Pp-eMax showed greater sensitivity (79.5%) to discriminate AF-EPS than PMax (72.7%), but the latter had better specificity (60.4% vs. 41.5%).
CONCLUSIONS
Left atrial CT were directly and significantly correlated with PMax and almost all the parameters of the second half of the P-wave. CT, PMax, and Pp-eMax (new parameter) were good predictors of AF-EPS, although CT did more robustly.
目的
几个 P 波参数反映了心房传导特性,并已被用于预测心房颤动(AF)。本研究旨在确定最大 P 波时限(PMax)与新的 P 波参数之间的关系,以及与心房传导时间(CT)的关系,并评估它们在电生理研究(AF-EPS)中预测 AF 的价值。
受试者和方法
这是一项在 153 名年龄在 18-70 岁之间的随机选择的接受 EPS 的患者中进行的横断面研究。根据是否在 EPS 期间发生 AF,将患者分为无 AF-EPS 和 AF-EPS 两组。比较了两组患者的不同 P 波参数和心房 CT。随后,评估了 P 波参数和心房 CT 对 AF-EPS 的预测价值。
结果
AF-EPS 患者的 CT、PMax 和最大 P 峰值-末端间期(Pp-eMax)值明显较高。几乎所有的 P 波参数都与左心房 CT 相关。PMax、Pp-eMax 和 CT 是 AF-EPS 的单变量和多变量预测因子。最大的 ROC 面积由房间隔 CT 呈现(0.852;p < 0.001;截断值:≥82.5ms;敏感性:91.1%;特异性:81.1%)。与 PMax(72.7%)相比,Pp-eMax 对区分 AF-EPS 的敏感性更高(79.5%),但后者的特异性更好(60.4%比 41.5%)。
结论
左心房 CT 与 PMax 和几乎所有 P 波后半部分的参数直接且显著相关。CT、PMax 和 Pp-eMax(新参数)是 AF-EPS 的良好预测因子,尽管 CT 更稳健。
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