阵发性房颤患者心电图P波形态的分析

目的 探讨体表心电图P波形态与阵发性心房颤动(PAF)的关系.方法 选择52例非瓣膜性阵发性房颤患者及47例无PAF的对照组患者,测定窦性心律时12导联心电图P波离散度(Pd),最大P波时限( Pmax),V1导联P波终末电势(Ptfv1)及aVR导联P波面积和振幅,超声心动图测定左房内径(LAD)、左室舒张末期内径(...     

A new algorithm for concealed accessory pathway localization using T-wave-subtracted retrograde P-wave polarity during orthodromic atrioventricular reentrant tachycardia

INTRODUCTION: AP localization can be predicted by analyzing the polarity of the delta wave, QRS polarity, and R/S ratio in patients with Wolff-Parkinson-White syndrome. However, the estimation of AP location is limited in patients with concealed pathways during atrioventricular reentrant tachycardias (AVRT). Thus, we analyzed retrograde P-wave polarity during orthodromic AVRT and developed an algorithm to predict the localization of concealed accessory pathways (AP). METHODS AND RESULTS: A total number of 131 patients with a single AP and inducible orthodromic AVRT were included. The initial 61 patients were analyzed retrospectively for algorithm development, whereas 70 patients were evaluated prospectively. The retrograde P-wave polarity was analyzed by subtracting the superimposing T-wave during orthodromic AVRT using custom-designed software. Four leads of the surface electrocardiogram (ECG) were identified to accurately distinguish AP locations assigned to four different regions around each AV annulus: I, aVR, aVL, and V(1). Lead V(1) was used to differentiate right (negative or isoelectric) from left (solely positive) APs. Retrograde P-wave in lead I was negative in left posterior APs exclusively and became more positive with an AP location shifting towards right anterior. P-wave polarity in lead aVR demonstrated a shift from a positive polarity from left APs to isoelectric in right APs. The opposite direction (shift from positive to isoelectric) was observed for lead aVL. The subsequently developed algorithm for concealed AP localization using these surface ECG leads demonstrated a high sensitivity, specificity, and positive predictive value particularly for common AP localizations (left posterior and inferior, and right septal) when applied in a prospective fashion. CONCLUSION: Concealed AP localization can be accurately predicted by the analysis of retrograde P-wave polarity during orthodromic AVRT using the algorithm derived from the presented study.     

P Wave Polarity During Pacing in Pulmonary Veins

Introduction: Recent studies have demonstrated that premature depolarizations that trigger atrial fibrillation often arise in pulmonary veins. The purpose of this study was to evaluate whether P wave polarity is helpful in distinguishing which of the 4 pulmonary veins is the site of orgin of a premature depolarization. Methods and Results: In 28 patients without structural heart disease who underwent focal ablation of paroxysmal atrial fibrillation, P wave polarity on a 12-lead electrocardiogram (ECG) was analyzed during sinus rhythm, and during pacing at a cycle lengh of 500–600[emsp4 ]ms in the high right atrium and within each of the 4 pulmonary veins. P waves were categorized as positive, negative, biphasic or isoelectric. A negative or biphasic P wave in lead I (sensitivity 85 %, specificity 71 %) or a positive P wave in V1 (sensitivity 85 %, specificity 89 %) were helpful in predicting a pulmonary venous site of origin as opposed to a right atrial site of origin. A positive P wave in lead II and III distinguished superior from inferior pulmonary veins (sensitivity 90 %, specificity 84 %). The sensitivity and specificity of negative or biphasic P waves in lead aVL in distinguishing a left from right pulmonary vein site of origin were 94 % and 42 %, respectively. Conclusions: Analysis of P waves polarity may be helpful in localizing the pulmonary vein that is the site of origin of a premature depolarization. Among the 12 ECG leads, I, II, III, aVL, and V1 are the most helpful in regionalizing premature depolarizations arising in the pulmonary veins.     

体位变化对QRS波形态的影响

目的探讨体表心电图（ECG）、动态心电图（DCG）不同体位对QRS波形态的影响。方法 40例接受ECG及95例接受DCG检查者分别进行卧位、立位心电图描记,每例2种ECG描记于5min内完成。结果 ECG：肢体导联：RaVR、SⅠ,胸导联：RV2～5、SV1、V3～6波形差异有显著性（P〈0.05）。DCG：肢体导联：QⅢ、aVR、aVL、RⅠ、Ⅱ、Ⅲ、aVL、SⅠ,aVR、aVF;胸导联：RV3～5、SV1～3波形差异有显著性（P〈0.05）。结论不论ECG还是DCG记录,卧位、立位记录的QRS波存在显著差异,DCG的肢体导联QRS波变化较ECG显著。     

Novel surface ECG criteria for differentiation between left- and right-sided manifest inferoseptal accessory pathways

Differentiation between left- and right-sided inferoseptal accessory pathways by existing ECG algorithms is unsatisfactory. We reviewed the 12-lead ECGs of 113 consecutive patients undergoing successful ablation of a single manifest inferoseptal pathway (40% at the mitral, 60% at the tricuspid annulus). For prediction of a right-sided location, the most useful criteria were a) a negative QRS polarity in all three inferior leads and in V1 (positive predictive value (PPV) 0.90, negative predictive value (NPV) 0.51) and b) a negative QRS polarity in > or =2 inferior leads and in V1 (PPV 0.80, NPV 0.56). A positive QRS polarity in > or =1 inferior lead predicted a left-sided location (PPV 0.54, NPV 0.80). A new algorithm had an accuracy of 76%.     

心脏脂肪垫在肺静脉灶性放电引发心房颤动中的作用

探讨心脏脂肪垫在肺静脉灶性放电与心房颤动 (简称房颤 )中的作用。 14条狗麻醉后经右侧开胸暴露右侧肺静脉。将 8极电极标测导管缝在右上肺静脉用于起搏。另放一 8极电极导管固定在临近右肺静脉和左房交接处脂肪垫。术中监测ECG的II和aVR导联、血压和体温。以 0 .1ms刺激间期 ,2 0Hz刺激频率的直方波刺激脂肪垫的迷走神经丛 30～ 5 0s,随着电压从 1～ 4 .5V ,心率逐渐减少 (P <0 .0 5 ) ,同时出现房性早搏、房性心动过速和房颤。在刺激迷走神经丛的同时 ,以 2 0 0～ 80 0次 /分的频率刺激肺静脉 (对照组没有迷走神经丛刺激 )均能诱发房颤。在迷走神经丛刺激下 ,以S1S1330ms,S1S2 稍长于肺静脉不应期的配对间期刺激肺静脉诱发房颤。与对照组比较 ,在迷走神经刺激下 ,肺静脉刺激诱发房颤的房性早搏数 ,随着刺激电压从 0 .6到 3V的增加 ,从 7个减少到 2个 (P <0 .0 5 )。 7条狗局部去神经后 ,6条狗在同样肺静脉刺激诱发房颤的电压条件下不能诱发房颤 ,其中有 3条在电压大于 9V时诱发房颤。结论 :在临近右肺静脉和左房交接处脂肪垫刺激可以将肺静脉灶性放电转变成房颤。因此 ,临床上自发的迷走神经丛的张力增高是肺静脉灶性放电转变成房颤的基础。     

镜像右位心的F导联心电图特征读析

目的 探讨F导联心电图诊断镜像右位心的特征。方法 在健康体检中应用F导联采集镜像右位心心电图并解读。结果 F导联检测到13例(0.018%)镜像右位心。在镜像右位心中Ⅰ导联各波形态均倒置,即P、QRS及T波均倒置;F2(Ⅱ)与F6(Ⅲ)导联、F3(aVR)与F1(aVL)导联波形互换;V3R、V5R导联波形类似正常时的V3、V5导联,代表左室波形;V1和V2导联代表右室波形。结论 镜像右位心的特征显示:P波F1(aVL)、F2(Ⅰ)导联显示镜像QRS波形;F1(aVL)、F2(Ⅰ)、F3(-aVR)、F4(Ⅱ)导联P-QRS-T波群均主波向下,呈rS型,其R波波幅递增;QRS波F5(aVF)不变;胸导联V1～V6呈rS型,其R波波幅递减,其S波呈逐渐相对增深,R/S比例逐渐减小的规律;V1导联R波高尖;常伴有其他心电图改变。     

Identifying far-field superior vena cava potentials within the right superior pulmonary vein

BACKGROUND: Far-field extra-pulmonary vein (PV) potentials originating from the left atrial appendage and adjacent left atrium have been identified within the left PVs, but no systematic study of extra-PV potentials within the right superior PV (RSPV) has been described. OBJECTIVES: The purpose of this study was to prospectively analyze extra-PV contributions to RSPV potentials. METHODS: In a consecutive, prospective series of 114 patients (96 men and 18 women; 56 +/- 10 years) undergoing electrophysiologically guided ostial PV isolation, residual potentials recorded with a circular mapping catheter in the RSPV after ostial isolation were analyzed. Their extra-PV origin was validated by mapping a site with identical timing (in sinus rhythm or atrial fibrillation) within the adjacent superior vena cava (SVC) where, in sinus rhythm, local pacing (until threshold amplitude) concealed the residual potential within the stimulus artifact because of very short activation timing. The timing of residual potentials with respect to surface ECG P-wave onset was measured and compared with the earliest timing of ablated RSPV potentials. RESULTS: Residual low-amplitude (mean 0.29 +/- 0.17 mV, range 0.07-0.65 mV) extra-PV potentials were recorded from the anterior and superior aspect of the RSPV in 3.6 +/- 1 bipoles in 26 (23%) patients (all men, 51 +/- 10 years) with a timing from sinus P-wave onset of 17 +/- 12 ms (range 0-40 ms) vs 52 +/- 9 ms (range 35-70 ms) for the earliest RSPV potential (P <.001, t-test). Extra-PV potentials all originated from the posterior aspect of the SVC. The SVC potential was identified during ongoing atrial fibrillation in eight patients and later confirmed in sinus rhythm. An extra-PV potential of SVC origin could be identified by timing earlier than 30 ms from onset of the sinus P wave, with sensitivity of 92%, specificity 100%, positive predictive value 100%, and negative predictive value 89%. CONCLUSION: Extra-PV potentials of right-sided SVC origin were recorded within the RSPV in 23% of patients and can be identified with high sensitivity and specificity by a timing within 30 ms of sinus P-wave onset. Recognizing these potentials can avoid unnecessary additional ablation and possibly PV stenosis or phrenic paralysis.     

P Wave Indices to Predict Atrial Fibrillation Recurrences Post Pulmonary Vein Isolation

Background

P-wave indices are appealing markers for predicting atrial fibrillation (AF) recurrences post ablation.

Objective

This study evaluates the value of P wave indices to predict recurrences post pulmonary vein isolation (PVI) in patients with paroxysmal AF.

Methods

We selected 198 patients (57 ± 8 years, 150 males) with symptomatic drug-refractory paroxysmal AF undergoing PVI in our hospital. A 12-lead electrocardiogram was used to measure P wave duration in lead II, P wave terminal force (PWTF) in lead V1, P wave axis and dispersion.

Results

During a follow-up of 9 ± 3 months, recurrences occurred in 60 (30.3%) patients. The patients that had AF recurrence had longer mean P wave duration (122.9 ± 10.3 vs 104.3 ± 14.2 ms, p < 0.001), larger P wave dispersion (40.7 ± 1.7 ms vs 36.6 ± 3.2 ms, p < 0.001). P wave duration ≥ 125 ms has 60% sensitivity, 90% specificity, positive predictive value (PPV) of 72% and negative predictive value (NPV) of 83.7%, whereas P wave dispersion ≥ 40 ms has 78% sensitivity, 67% specificity, PPV of 51% and NPV of 87.6% 48/66 (72.7%) patients with PWTF ≤ - 0.04 mm/second vs 12/132(9%) with PWTF > -0.04 mm/second showed recurrence of AF (p < 0.001). P wave axis was not different between two groups. On multivariate analysis, P wave indices were not independent from left atrial size and age.

Conclusions

P wave duration ≥ 125 ms, P wave dispersion ≥ 40 ms and PWTF in V1 ≤ - 0.04 mm/sec are good clinical predictors of AF recurrences post PVI in patients with paroxysmal atrial fibrillation; however they were not independent from left atrial size and age.     

起源于三尖瓣环非间隔部位的房性心动过速体表心电图特点及射频消融治疗

目的报道起源于三尖瓣环非间隔部位的房性心动过速(简称房速)体表心电图特点及射频消融结果。方法13例房速均被证实起源于三尖瓣环非间隔部位并射频消融成功。影像学消融靶点位于三尖瓣环,局部电图可见A波和V波,且A∶V<2,V波的振幅>0.5 mV。结果9例消融成功部位位于三尖瓣环下侧壁,4例位于三尖瓣环上侧壁,靶点局部A波激动时间领先体表心电图P波起点41±15 ms,AV比值0.5±0.4。三尖瓣环下侧壁起源的房速P波特点:Ⅰ、aVL、aVR导联P波正向,Ⅱ、Ⅲ、aVF导联P波负向,V1～V6导联P波负向。三尖瓣环上侧壁起源的房速P波特点:Ⅰ、aVL导联P波正向,aVR导联P波负向或呈等电位线,Ⅱ、Ⅲ、aVF导联P波低幅正向波或呈等电位线,V1导联负向,胸前导联由右向左P波逐渐移行为正向。结论三尖瓣环非间隔部位是右房房速的一个重要起源点,其体表心电图有明确特征。     

P wave morphology during spontaneous and paced pulmonary vein activity: differences between patients with atrial fibrillation and normal controls

P wave morphology (PWM) has been used to predict the location of ectopic foci responsible for triggering atrial fibrillation (AF). With bi-atrial mapping, this study examined PWM during spontaneous ectopy and during pulmonary vein (PV) pacing, comparing the results with published algorithms in 40 AF patients and 15 controls. PWM during PV pacing is similar to spontaneous ectopy, if performed at similar coupling intervals. PWM during ectopic activity from the PVs is affected by cycle length and the presence of underlying atrial electrical and structural abnormalities. Changes in PWM during decremental pacing were observed in 5% of controls but in over 25% of persistent AF patients. The algorithms are accurate in over 90% of controls and paroxysmal AF patients with normal atria, but less than 60% in those with persistent AF or electrical or structural atrial abnormalities. The accuracy of non-invasive localization of arrhythmogenic PV is limited.     

肥厚型心肌病体表心电图特征

目的 探讨肥厚型心肌病（HCM）患者体表心电图（ECG）特征。 方法 选取2015年5月~2017年4月期间住院治疗的HCM患者60例，同时选取本院同期查体的正常人60例，作为对照组，要求两组人员性别、年龄、体质量指数匹配。分析ECG各导联QRS波时限和R波、S波振幅，异常q波情况，QTC时限，R/S比值， ST段下移与抬高，T波低平、倒置，P波时限等指标。 结果 ①HCM组的V2、V3导联QRS波时限；Ⅱ、V4导联异常Q波比例；QTC时限；P波时限；左心室肥厚ECG诊断公式SV1+RV5/V6及（SV3+RaVL）×QRS波时限均显著高于正常对照组。②HCM组的I、aVR、aVL、aVF导联QRS波时限；aVR导联Q波所占比例； I、Ⅱ、Ⅲ、aVL、aVF、V3、V4、V5、V6导联QRS波主波与T波方向一致性； V4、V5、V6导联R/S比值均显著低于正常对照组。 结论 ECG诊断HCM首先要满足左心室肥厚的诊断标准，再结合上述ECG导联的特异性参数进行综合判断。     

Characteristics of the U wave on the electrocardiogram of patients with diabetes mellitus type 1 without clinical signs of cardiac damage

Additionally increased (1 mB = 50 mm) ECG recorded in 137 patients with diabetes mellitus without clinical signs of cardiac damage and 66 healthy subjects revealed that the incidence of positive U wave was less in the patients than in the healthy subjects. The negative U wave was found in leads aVR, III, aVL, and V1 in healthy subjects. In patients with diabetes mellitus, the negative and diphasic U waves were found in all the ECG leads. The amplitude of a positive U wave on a ECG strip of the patients was significantly lower in leads V1 and V2 than that of the healthy subjects. The findings are regarded as manifestations of metabolic and dystrophic myocardial changes of diabetic origin.     

Atrial tachycardia initiating atrial fibrillation successfully ablated in the non-coronary cusp of the aorta

A 60-year-old woman was referred for catheter ablation of atrial fibrillation (AF). Atrial flutter and atrial tachycardia (AT) also had been clinically documented. During the electrophysiological study, the clinical AT was induced by burst atrial pacing during isoproterenol infusion and exhibited negative P waves in the inferior leads, positive P waves in leads I, aVL, and aVR, and biphasic P waves in lead V1. The AT repeatedly and spontaneously accelerated to initiate AF by causing fibrillatory conduction in the atria. Successful catheter ablation of the AT was achieved in the non-coronary cusp of the aorta (NCC) where the local atrio-ventricular electrogram amplitude ratio was >1 during both the AT and sinus rhythm. The tailored approach targeting the NCC AT alone without left atrial ablation completely eliminated the AF. In catheter ablation of AF in a patient with a co-existing clinical AT, it may be recommended to examine the clinical AT first. If the clinical AT initiates the AF and local atrial activations in the His bundle region precede the P wave onset during AT, mapping in the NCC should be considered prior to left atrial catheterization.     

致心律失常性右室心肌病患者的心电图aVR导联特征

目的探讨致心律失常性右室心肌病(ARVC)患者的心电图aVR导联特征。方法分析60例ARVC患者的体表心电图aVR导联的波形特征,并与71例正常人心电图作对照。结果 ARVC患者aVR导联呈QR型、rSr型及rSR型的比例明显高于对照组(分别为23.3%vs 5.6%,26.7%vs 8.5%,6.7%vs 0,P<0.01);而呈Qr型者所占的比例明显低于对照组(13.3%vs 46.5%,P<0.01),与对照组相比ARVC患者aVR导联呈碎裂QRS波明显增多(33.3%vs 8.5%,P<0.01);ARVC患者aVR导联Q波或S波振幅减小(0.42±0.26 mV vs 0.62±0.25 mV,P<0.01);且R/S比值明显增大(0.52±0.67 vs 0.21±0.23,P<0.01)。结论 ARVC患者的体表心电图aVR导联特征性改变可作为ARVC的诊断线索。     

aVR导联临床应用的新视点

aVR导联是一个经常被忽略的导联,但是,近几年的研究显示aVR导联在诸多方面都发挥着重要的作用。aVR导联经典的临床应用包括窦性心律的确认、电轴的确定、右位心和左右手反联及心室肥厚的诊断。其临床应用的新发现包括:急性冠脉综合征时,aVR导联ST段抬高提示左主干、左前降支近端或三支病变;在ST段抬高型心肌梗死中aVR导联ST段抬高或下移是住院患者死亡率的独立预测因子,可用于危险分层;分析心律失常时,aVR导联可用于鉴别宽QRS型、窄QRS型心动过速;体表心电图的aVR导联结合V1、V2导联可以估算右房房颤周长,并且aVR导联P波振幅是心脏手术术后房颤发生的强有力的预测因子;Brugada综合征时出现"aVR征"有助于危险分层;右室负荷过重时,aVR导联ST段抬高是急性肺栓塞的死亡预测因子(单变量回归分析)和并发症的预测因子;aVR导联R波延迟是慢性右室压力负荷过重的独立预测因子且多见于肺动脉狭窄患者;特发性肺动脉高压的患者中,aVR导联R波>4mm,结合V1导联R波>6mm、R/SV1>1,R/SV5与R/SV1比值<0.04,Ⅱ导联P波>2.5mm可以诊断右室肥厚;当疑似预激综合征时,利用体表心电图同时出现PR间期≤120ms和PR离散度≥20ms、aVR导联缺少初始正向波(间隔R波)和V1导联水平面QRS移行提前这3步可识别心室预激,且具有较高的特异性和敏感性;连续监测aVR导联R波和R/S比例有助于预测三环类抗抑郁药物中毒时意识的恢复;急性心包炎时,aVR导联ST段压低、PR段抬高形成了急性心包炎的特征性表现,即"关节征",并且可能是急性心包炎最早甚至是唯一的心电图改变,具有早期诊断价值。     

Morphological characteristics of P waves during selective pulmonary vein pacing.

OBJECTIVES: We sought to assess the value of 12-lead electrocardiogram (ECG) P-wave morphology to recognize the paced pulmonary vein (PV). BACKGROUND: Prediction of arrhythmogenic PVs producing ectopy or initiating atrial fibrillation (AF) using 12-lead ECG may facilitate curative ablation. METHODS: In 30 patients P-wave configurations were studied during sinus rhythm and during pacing at six sites from the four PVs: top and bottom of each superior PV and both inferior PVs. The P-wave amplitude, duration and morphology were assessed, and predictive accuracies were calculated for the most significant parameters. An algorithm predicting the paced PV was developed and prospectively evaluated in a different population of 20 patients. RESULTS; Three criteria were used to distinguish right from left PV: 1) a positive P-wave in lead aVL and the amplitude of P-wave in lead I > or =50 microV indicated right PV origin (specificity 100% and 97%, respectively); 2) a notched P-wave in lead II was a predictor of left PV origin (specificity 95%); and 3) the amplitude ratio of lead III/II and the duration of positivity in lead V(1) were also helpful in distinguishing left versus right PV origin. In addition, superior PVs could be distinguished from inferior according to the amplitude in lead II (> or =100 microV). In prospective evaluation, an algorithm based on the above four criteria identified 93% of left versus right PV and totally 79% of the specific PVs paced. CONCLUSIONS: Pacing from the different PVs produced a P-wave with distinctive characteristics that could be used as criteria in an algorithm to identify the PV of origin with an accuracy of 79%.     

体表心电图P波形态对局灶性房性心动过速起源部位的预测价值

目的探讨体表心电图房性P波形态对局灶性房性心动过速的预测价值。方法选取52例均经射频导管消融（下称消融）治疗成功的房性心动过速患者房性心动过速发作时体表心电图房性P波,分析P波的形态特征及其与房性心动过速起源部位的关系。结果V1P波正相预测左心房起源房性心动过速的敏感性和特异性分别为82．4％和80．0％;而I和aVL P波负相预测左心房起源房性心动过速的敏感性分别为4617％和52．9％,特异性分别达100．0％和88.2％;V1P波负相预测右心房起源房性心动过速的敏感性和特异性分别为80．0％和100．0％。心电图与消融诊断房性心动过速起源的比较,差异无统计学意义（P〉0．05）。结论通过房性心动过速发作时的P波形态分析,可初步预测局灶性房性心动过速的起源部位,为消融术前准备及选择恰当的手术方式提供一定临床参考。     

Accessory pathway localization by QRS polarity in children with Wolff-Parkinson-White syndrome

INTRODUCTIONS: Location of the accessory pathway (AP) in Wolff-Parkinson-White (WPW) syndrome can be determined accurately by the QRS polarity on resting ECG. These ECG characteristics may be different in children, and no algorithm has yet been tested. METHODS AND RESULTS: A total of 153 resting ECGs of symptomatic children with WPW syndrome were retrospectively analyzed. The anatomic AP location had been established fluoroscopically at eight possible sites during radiofrequency catheter ablation. Two independent observers predicted AP location on blinded ECGs with a QRS polarity algorithm for adults using leads II, III, aVL, V1, and V2. Subsequently, the QRS polarity for all individual ECG leads was evaluated and a new algorithm for children was devised. With the adult algorithm, the observers correctly predicted only 55% to 58% of AP locations. The septal and right-sided pathways often were inseparable, and mid-septal and parahisian pathways were missed. In the new children's algorithm, left lateral, left posteroseptal, and posteroseptal pathways shared a positive or intermediate QRS polarity on V1, with the left lateral pathway separated by a positive QRS polarity on lead III. Negative QRS polarity on lead V1 and positive QRS polarity on lead V3 were shared by right posteroseptal, mid-septal, parahisian, and anteroseptal pathways, with the latter two having a positive QRS polarity on lead aVF. Right lateral pathways had negative QRS polarity on lead V1 and negative or intermediate QRS polarity on lead V3. Overall accuracy for these five regions was 90%. CONCLUSION: AP characterization by QRS polarity in children with WPW syndrome is more diverse than in adults and requires other ECG leads to establish five AP regions.     

环肺静脉线性消融术对P波时限及麦氏指数的影响

目的探讨环肺静脉线性消融术对P波时限和麦氏指数的影响。方法选择50例行环肺静脉线性消融的阵发性心房颤动患者,描记消融术前及术后7天窦性心律下同步12导联心电图,分析比较各导联P波时限及麦氏指数。术后定期根据症状及动态心电图随访判断手术成功与否,并比较成功者与复发者手术前后的P波时限及麦氏指数。结果Ⅱ、Ⅲ、aVR、V3、V4、V5导联P波时限术后缩短(P<0.05);Ⅱ、aVR、V3、V4、V6导联麦氏指数术后减小(P<0.05);手术后成功者与复发者P波时限和麦氏指数无差异。结论环肺静脉线性消融术后,体表心电图一些导联中P波时限及麦氏指数减小;术后P波时限及麦氏指数对手术是否成功无预测价值。