P波离散度对房颤消融术后复发的预测价值

目的:探讨P波离散度对心房颤动(房颤)导管消融术后复发的预测价值。方法:连续收集经导管消融的房颤患者120例,根据是否复发分为复发组与对照组,分别测定和比较两组术后心电图最大P波时限(Pmax)及最小P波时限(Pmin)并计算P波离散度(Pd)。结果:房颤消融术后,53例病人复发,复发组最大P波时限(132±23mm VS 102±25mm)及P波离散度(33±9mm VS 29±10mm)均显著高于非复发组,差异有统计学意义(P0.05)。结论:P波离散度可用于辅助预测房颤导管消融术后是否复发。     

三维标测环肺静脉前庭隔离术后肺静脉狭窄的相关因素

目的:探讨房颤射频消融术后肺静脉狭窄的相关因素,为其预防提供依据。方法:收集113例射频消融房颤患者的临床资料,记录射频术中消融时间、阻抗和温度;术后6个月64层CT左房-肺静脉重建随访,统计肺静脉狭窄的发生率;多元Logistic回归分析肺静脉狭窄的相关因素。结果:依据肺静脉数量计算的肺静脉狭窄率为3.4%,按照患者数量计算的肺静脉狭窄率为7.7%。多元Logistic回归分析,初始50例手术较其后病例的OR为2.167,95%CI=1.038~9.857,P=0.046,消融时间在总消融时间均数之上的患者比在均数之下者OR为2.856,95%CI=1.352~6.043,P=0.021。结论:初始50例手术和消融时间长是房颤射频消融术后肺静脉狭窄的相关因素。     

P波离散度对房颤消融术后复发的预测价值

目的：探讨P波离散度对心房颤动（房颤）导管消融术后复发的预测价值。方法：连续收集经导管消融的房颤患者120例,根据是否复发分为复发组与对照组,分别测定和比较两组术后心电图最大P波时限（Pmax）及最小P波时限（Pmin）并计算P波离散度（Pd）。结果：房颤消融术后,53例病人复发,复发组最大P波时限（132±23mm VS 102±25mm）及P波离散度（33±9mm VS 29±10mm）均显著高于非复发组,差异有统计学意义（P〈0.05）。结论：P波离散度可用于辅助预测房颤导管消融术后是否复发。     

三维标测环肺静脉前庭隔离术后肺静脉狭窄的相关因素

目的：探讨房颤射频消融术后肺静脉狭窄的相关因素,为其预防提供依据。方法：收集113例射频消融房颤患者的临床资料,记录射频术中消融时间、阻抗和温度;术后6个月64层CT左房-肺静脉重建随访,统计肺静脉狭窄的发生率;多元Logistic回归分析肺静脉狭窄的相关因素。结果：依据肺静脉数量计算的肺静脉狭窄率为3．4％,按照患者数量计算的肺静脉狭窄率为7．7％。多元Logistic回归分析,初始50例手术较其后病例的OR为2．167,95％CI=I．038-9．857,P=0．046,消融时间在总消融时间均数之上的患者比在均数之下者OR为2．856,95％CI=1．352-6．043,P=0．021。结论：初始50例手术和消融时间长是房颤射频消融术后肺静脉狭窄的相关因素。     

瓣膜置换术同期射频消融术后房颤复发和BNP关系

目的:研究瓣膜置换术同期实施射频消融术后房颤复发和脑钠肽(BNP)的关系.方法:对60例心脏瓣膜病合并心房颤动的患者行瓣膜置换手术和射频消融手术,根据患者术后6个月内房颤是否复发将患者分为房颤复发组(AF组)和房颤未复发组(SR组).两组患者在性别、体外循环时间、阻断时间和射血分数等方面无明显差异(P0.05).两组患者分别于术前和术后第七天抽血测定血浆中BNP,分析患者术后BNP水平与房颤复发的关系.结果:60例患者均进入结果分析.房颤复发组患者术后的BNP水平明显高于房颤未复发组,差异比较有显著性意义(P<0.05).结论:BNP在消融术后房颤复发的预测上具有良好的临床应用价值,可以为临床干预和制定合理的治疗方案提供理论依据.     

房颤射频消融术后复发风险预测评分系统的建立及评价

目的:探讨心房颤动(房颤)患者射频消融术后复发的风险因素,并依此构建个性化的风险评分系统。方法:选取2017年1~8月行射频消融术的房颤患者154例作为研究对象,依据术后3个月的随访结果将患者分为复发组及未复发组,采用单因素分析和Logistic回归分析对各风险因素进行分析,构建其评分系统,采用Hosmer-Lemeshow拟合优度检验和ROC曲线下面积评价评分系统的准确度及区分度。结果:术后随访3个月的结果显示共37例(24.03%)房颤患者出现复发,房颤类型、病程、体质量指数(BMI)、左房前后径(LAD)、左房容积(LAV)及超敏C反应蛋白(hs-CRP)水平均是房颤复发的独立风险因素(P<0.05)。构建的风险评分系统得分为0~26分,Hosmer-Lemeshow拟合优度检验:x^2=7.520,P=0.482;ROC曲线下面积为0.864(95%CI:0.837~0.891),预测评分值为15分时,约登指数最大(0.605),此时的敏感度和特异度分别为77.3%和83.2%。结论:房颤患者射频消融术后的复发率较高,依据风险因素构建的风险评分系统具有较高的预测效率和区分能力,可作为房颤患者射频消融术后复发风险评估的参考工具。     

去自主神经效应对环肺静脉消融房颤疗效的影响

目的：探讨去自主神经效应对环肺静脉消融(CPVA)治疗心房颤动(房颤)的远期成功率的影响。方法：选择104 例药物治疗无 效的、有临床症状的阵发性房颤患者作为研究对象,所有患者均接受CPVA 术。分别于术前、术后进行动态心电图检查,术后每3 个月复查一次动态心电。随访房颤消融成功率(术后3个月无房颤被定义为无复发);并记录动态心电心率变异性(HRV)以反映自 主神经功能。结果：本组研究共104 例患者完成了CPVA术,平均手术次数为(1.35术次数为。变次,成功率为77.9%,共随访(24.27 次数为。变异性个月。根据术后是否发生房颤,将患者分为成功组(81例)和复发组(23 例),所有患者CPVA术后的时域和频域各项 参数均显著降低(P<0.01),两组术后心率变异性(HRV) 各项参数均较术前明显降低,成功组患者的SNDD、SDANN、rMSSD、 PNN50、HF、TF、LF、VLF 较对照组患者呈现不同程度的降低。结论：CPVA术可使心房出现去自主神经效应,进而增加去神经化 效应,有利于提高其治疗房颤的远期成功率。     

射频消融改善阵发性和长期持续性心房颤动患者生活质量的研究

目的:比较射频消融对阵发性和长期持续性心房颤动(房颤)患者生活质量的改善。方法:纳入2011年5月至2016年8月接受射频消融治疗的阵发性房颤患者142例和长期持续性房颤61例。消融前和消融后12个月采用健康状况调查简表(SF-36)评估患者生活质量。结果:长期持续性房颤患者年龄及合并高血压和慢性心功能不全的比例高于阵发性房颤组。消融后12个月,两组患者心理健康(MCS)和生理健康(PCS)评分均显著提高(P0.01)。长期持续性房颤患者MCS和PCS的改善幅度显著高于阵发性房颤组(P0.01)。房颤未复发患者生活质量的提高幅度显著高于复发患者(P0.01)。结论:射频消融改善长期持续性房颤患者生活质量的幅度高于阵发性房颤,房颤复发将影响患者的生活质量。     

经食道超声心动图评估特发性房颤左心房左心耳的价值

目的:研究经食道超声心动图(TEE)评估特发性房颤左心房左心耳的临床价值。方法:选择自2015年1月到2016年8月在医院接受诊治的特发性房颤患者100例纳入本次研究,阵发性房颤92例,记为阵发性房颤组;持续性房颤8例,记为持续性房颤组。另选同期在医院进行健康体检的心功能正常志愿者90例作为对照组。利用TEE对受试者进行检查,对比房颤组与对照组的左心房及左心耳参数,是否含有自发性显影(LASEC)的房颤患者的左心房及左心耳参数,利用TEE分析对房颤患者的预后情况。结果:阵发性房颤组左心房的前后径和左右径,左心耳血流最大的排空速度(Lev)均明显小于对照组,左心耳的面积变化率及最大的充盈速度(Lfv)均明显大于对照组,差异有统计学意义(P0.05)。持续性房颤组左心房的前后径和左右径均明显大于对照组,左心耳的面积变化率、Lev及Lfv均明显小于对照组,差异有统计学意义(P0.05)。阵发性房颤组左心房的前后径和左右径均明显小于持续性房颤组,左心耳的面积变化率、Lev及Lfv均明显大于持续性房颤组,差异有统计学意义(P0.05)。有LASEC者左心房的前后径和左右径均明显大于无LASEC者,左心耳的面积变化率、Lev及Lfv均明显小于无LASEC者,差异有统计学意义(P0.05)。100例房颤患者中发现34例LASEC,占34.00%,其中有18例患者合并有左心耳血栓,占18.00%。总计有66例患者接受导管射频消融疗法,占66.00%,均未在术中及术后7d内出现血栓及栓塞并发症。结论:利用TEE对特发性房颤的患者左心房及左心耳进行评估,有利于更好的辅助患者的临床治疗,值得重视。     

超敏C反应蛋白与阵发性房颤射频消融术后早期复发的关系

目的：前瞻性研究超敏C反应蛋白（hsCRP）与阵发性心房颤动射频消融术后早期复发的关系。方法：接受CARTO指导房颤射频消融术的非瓣膜性阵发性房颤患者57例,平均年龄（53.32±9.98）岁,其中男42例,女15例。术前及术后5 d连续测定外周血hsCRP和高敏肌钙蛋白T （hs-cTnT）水平,记录体表心电图,行24 h动态心电图检查。术后5 d内,32名患者（56.14%）为窦性心律,为未复发组,25名（43.86%）复发房颤,为复发组。结果：未复发组与复发组患者的hsCRP与hs-cTnT日均升高量显著正相关,P=0.044,r=0.268。而两组间基线临床特征、手术前后血浆hsCRP、hs-cTnT水平、血浆hsCRP及hs-cTnT的总升高量（峰值水平-术前水平）、日均升高量（总升高量/达到峰值所用天数）无明显统计学差异（P均>0.05）。结论：房颤射频消融术后hsCRP升高变化与心肌损伤程度相关,与早期复发无直接关系,尚不能作为预测房颤术后早期复发的高危因子。     

星状神经节电刺激建立交感神经介导的急性房颤犬模型

目的建立交感神经张力异常介导的急性房颤动物模型的方法学。方法将16只随意来源犬分为三组：对照组（n=4）,右侧星状神经节（aSG）组（n=6）和左侧星状神经节（LSG）组（n=6）,测定心房和肺静脉不同部位的房颤诱发率、房颤持续时间。结果RSG刺激显著增加右心房（RA）的房颤诱发率和持续时间（P〈0．05）,LSG刺激显著增加左心房（LA）、左上肺静脉（LSPV）、左下肺静脉（LIPV）的房颤诱发率和持续时间（P〈0．05）;与刺激时相比,RSG切除显著降低RA的房颤诱发率和持续时间（P〈0．05）;LSG切除显著降低LA、LSPV、LIPV的房颤诱发率和持续时间（P〈0．05）。结论星状神经节电刺激同时快速心房起搏6h可成功建立交感神经介导的急性房颤犬模型,星状神经节电刺激使心房和肺静脉部位的房颤诱发率显著升高,房颤持续时间显著延长,去星状神经节支配可减少房颤的发生和维持。     

Phrenic nerve injury after catheter ablation of atrial fibrillation

Phrenic Nerve Injury (PNI) has been well studied by cardiac surgeons. More recently it has been recognized as a potential complication of catheter ablation with a prevalence of 0.11 to 0.48 % after atrial fibrillation (AF) ablation. This review will focus on PNI after AF ablation. Anatomical studies have shown a close relationship between the right phrenic nerve and it's proximity to the superior vena cava (SVC), and the antero-inferior part of the right superior pulmonary vein (RSPV). In addition, the proximity of the left phrenic nerve to the left atrial appendage has been well established. Independent of the type of ablation catheter (4 mm, 8 mm, irrigated tip, balloon) or energy source used (radiofrequency (RF), ultrasound, cryothermia, and laser); the risk of PNI exists during ablation at the critical areas listed above. Although up to thirty-one percent of patients with PNI after AF ablation remain asymptomatic, dyspnea remain the cardinal symptom and is present in all symptomatic patients. Despite the theoretical risk for significant adverse effect on functional status and quality of life, short-term outcomes from published studies appear favorable with 81% of patients with PNI having a complete recovery after 7 +/- 7 months. CONCLUSION: Existing studies have described PNI as an uncommon but avoidable complication in patients undergoing pulmonary vein isolation for AF. Prior to ablation at the SVC, antero-inferior RSPV ostium or the left atrial appendage, pacing should be performed before energy delivery. If phrenic nerve capture is documented, energy delivery should be avoided at this site. Electrophysiologist's vigilance as well as pacing prior to ablation at high risk sites in close proximity to the phrenic nerve are the currently available tools to avoid the complication of PNI.     

The assessment of pulmonary vein potentials using the new achieve advance during cryoballoon ablation of atrial fibrillation

BackgroundThe new version of inner lumen mapping catheter (Achieve Advance?; Medtronic, Minnesota, USA) includes a new solid core which provides improved rotational response, as compared to the current Achieve Mapping Catheter. In the present study, we sought to analyze the rate of visualisation of real-time recordings using this new device comparing it with a large cohort of patients having undergone second generation cryoballoon (CB) ablation using the previous Achieve mapping catheter.MethodsAll patients having undergone CB ablation using the Achieve Advance and the last 150 consecutive patients having undergone CB ablation using the previous Achieve were analysed. Exclusion criteria were presence of an intracavitary thrombus, uncontrolled heart failure, moderate or severe valvular disease and contraindications to general anesthesia.ResultsA total of 200 consecutive patients (60.1 ± 9.5 years, 75% males) were evaluated (50 Achieve Advance and 150 old Achieve). Real-time recordings were significantly more prevalent in the “new Achieve Advance” population compared with the “old Achieve” group (73.5% vs 56.8%; p = 0.0001). Real-time recordings could be more frequently visualized in the “Achieve Advance” group in all veins except RIPV (LSPV: 86% vs 71.3%, p = 0.04; LIPV: 84% vs 62.7%, p = 0.005; RSPV: 78% vs 52%, p < 0.0001; RIPV: 46% vs 41.3%, p = 0.3).ConclusionsThe rate of visualisation of real-time recordings is significantly higher using the new Achieve Advance if compared to the previous Achieve mapping catheter in the setting of CB ablation. Real-time recordings can be visualized in approximately 73.5% of veins with this new device.     

Endoscopically visible steam pop during high-energy laser pulmonary vein ablation

A 58-year-old woman with atrial fibrillation underwent laser balloon ablation at our centre. During 12 W ablation in the left superior pulmonary vein, a sudden steam pop was witnessed with displacement of the balloon catheter. Visualisation of the pulmonary vein antrum showed a red discolouration at the last ablation site.The endoscopically assisted laser balloon ablation system (EAS) is a relatively novel technique that is being used to perform pulmonary vein isolation (PVI) in the treatment of atrial fibrillation [1]. The EAS consists of a flexible, compliant balloon for sustained wall contact and a power adjustable laser beam for ablation independent of tissue contact.A 58-year-old woman underwent PVI with the EAS due to drug-refractory, symptomatic and paroxysmal atrial fibrillation. During 12 W ablation at the antrum of the left superior pulmonary vein (LSPV), a sudden steam pop was witnessed, with displacement of the EAS catheter (Fig. 1). Visualisation of the LSPV antrum showed a red discolouration, most likely a haematoma in the antral wall of the LSPV, at the last ablation site. A successful PVI was performed; the red discolouration was still present after 1 h. The patient did not develop symptoms related to the steam pop and echocardiography did not reveal any abnormalities.Open in a separate windowFig. 1Witnessed steam pop during endoscopically assisted ablation. Panel a displays the fifth ablation site in the left superior pulmonary vein (LSPV) where the steam pop occurred. The white ring of exposed tissue is a sign of optimal catheter-wall contact. Panel b displays the LSPV antrum directly after the steam pop. Note the red discolouration which was not present in panel a Steam pops are caused by overheating of myocardial tissue, exceeding 100 ℃, and are preceded by a shift in impedance levels, which cannot be measured with the EAS. Higher energy settings and higher contact force are known to increase the risk of steam pops. Steam pops can lead to tissue disruption and cardiac perforation [2]. However, steam pops appear to be a rare complication with reduced EAS energy settings, which we mostly used in 50 EAS patients, in whom no steam pops were observed [3].     

Electrical connections between left superior pulmonary vein, left atrium, and ligament of Marshall: implications for mechanisms of atrial fibrillation

The importance of the ligament of Marshall (LOM) to rapid activations within the left superior pulmonary vein (LSPV) during atrial fibrillation (AF) remains poorly understood. We aimed to characterize the importance of electrical coupling between the LSPV with the left atrium (LA) and the LOM in the generation of high-frequency activations within this PV. We performed high-density mapping of the LSPV-LA-LOM junction in eight dogs, using 1,344 electrodes with a 1-mm resolution before and after posterior ostial ablation to diminish PV-LA electrical connections. A LOM potential was recordable up to 6.5 mm (SD 2.2) into the LSPV in all dogs during sinus rhythm (SR) and LA pacing. Functional LOM-LSPV electrical connections bypassing the PV-LA junction were present in five of eight dogs. Direct LOM-LSPV connections contributed to 46.5% (SD 16.0) of LSPV activations during AF, resulting in a greater propensity to develop focal activations (P < 0.05) and a higher activation rate during AF of LSPVs with direct LOM connections compared with those without (P < 0.03). Posterior LSPV ostial ablation without damaging the anterior wall or LOM slowed residual LA-PV conduction (P < 0.001). This diminished PV-LA coupling prevented the reinduction of LSPV focal activations in all dogs. However, persistent LOM focal activations in two dogs continued to activate the LSPV rapidly [cycle length 151.8 ms (SD 4.8)] via direct LOM-LSPV connections. LOM-LSPV connection forms an accessory pathway that contributes to the electrical coupling between LSPV and LA during SR and AF. This pathway may contribute to rapid activations within the LSPV during AF.     

Technique of pulmonary vein isolation by catheter ablation

In selected patients with atrial fibrillation, the fibrillation episodes may be initiated by single or short bursts of ectopy often originating from one or more pulmonary veins (PVs). Therefore, electrical isolation of these veins by catheter ablation is currently being explored as a treatment modality for patients with paroxysmal and even more permanent types of atrial fibrillation. At present, two different techniques are used: 1) selective ablation of electrical connections between left atrium and myocardial sleeves inside the PVs; and 2) contiguous encircling lesions around and outside the PV ostia. With both techniques, moderate to high success rates have been reported with a limited follow-up duration. Both types of procedure are very complex and require a highly skilful team. With the variable anatomy of the PVs, non-invasively acquired angiographic images may serve as a roadmap for catheter manipulation. Modern three-dimensional catheter navigation techniques can be applied to facilitate accurate catheter positioning with limited fluoroscopic exposure. Experimental and clinical research is needed to define patient selection criteria.     

Expression of TGFβ1 in pulmonary vein stenosis after radiofrequency ablation in chronic atrial fibrillation of dogs

The development of pulmonary vein stenosis has recently been described after radiofrequency ablation (RF) to treat atrial fibrillation (AF). The purpose of this study was to examine expression of TGFβ1 in pulmonary vein stenosis after radiofrequency ablation in chronic atrial fibrillation of dogs. About 28 mongrel dogs were randomly assigned to the sham-operated group (n = 7), the AF group (n = 7), AF + RF group (n = 7), and RF group (n = 7). In AF or AF + RF groups, dogs underwent chronic pulmonary vein (PV) pacing to induce sustained AF. RF application was applied around the PVs until electrical activity was eliminated. Histological assessment of pulmonary veins was performed using hematoxylin and eosin staining; TGFβ1 gene expression in pulmonary veins was examined by RT-PCR analysis; expression of TGFβ1 protein in pulmonary veins was assessed by Western blot analysis. Rapid pacing from the left superior pulmonary vein (LSPV) induced sustained AF in AF group and AF + RF group. Pulmonary vein ablation terminated the chronic atrial fibrillation in dogs. Histological examination revealed necrotic tissues in various stages of collagen replacement, intimal thickening, and cartilaginous metaplasia with chondroblasts and chondroclasts. Compared with sham-operated and AF group, TGFβ1 gene and protein expressions was increased in AF + RF or RF groups. It was concluded that TGFβ1 might be associated with pulmonary vein stenosis after radiofrequency ablation in chronic atrial fibrillation of dogs. Shufeng Li and Hongli Li contributed equally to the work.     

Balloon Catheter Position and its Relationship with Esophageal Temperature during Pulmonary Vein Isolation using High-Intensity Focused Ultrasound

BackgroundHIFU can achieve PVI, but severe esophageal complications have happened. We analyzed relative position of HIFU balloon catheter (BC) to esophageal temperature (ET) probe and correlated it to ET changes.Methods and ResultsBefore each ablation relative position of HIFU BC to ET probe was recorded in RAO 30° and LAO 40°. We compared ablations where ET at end of ablation was < 38.5°C or ≥ 38.5°C and < 40.0°C or ≥ 40.0°C.A total of 600 images from 311 ablations in 28 patients (18 male, age 63 ± 7 years), were analyzed. ET ≥ 38.5°C was reached when distance from BC to ET probe was: < 20 mm in LAO for RSPV and < 29 mm in LAO for RIPV. For RIPV ET ≥ 38.5°C was reached when angle between BC and ET probe was significantly smaller in LAO and RAO. ET ≥ 40.0°C was reached when distance of BC to ET probe was: < 20 mm in LAO for RIPV, < 14 mm in RAO for RIPV, < 18 mm in RAO for LIPV. ET increased to ≥ 40.0°C when distance from BC to ET probe was significantly longer in LAO for LIPV. For RIPV ET ≥ 40.0°C was reached when angle between BC and ET probe was significantly smaller in LAO.ConclusionsThere is a relationship between distance/angle of HIFU BC to ET probe and ET: shorter distances and smaller angles can cause higher ET.     

Anatomical Characteristics of Pulmonary Veins for the Prediction of Postoperative Recurrence after Radiofrequency Catheter Ablation of Atrial Fibrillation

Background

The relationship between focal pulmonary vein potential and atrial fibrillation (AF) has been confirmed. Pulmonary vein (PV) isolation and circumferential pulmonary vein ablation have been the most commonly used procedures of radiofrequency ablation. However, few studies have investigated the relationship between anatomical characteristics of PV and AF recurrences after radiofrequency ablation.

Methodology

For 267 AF patients treated by radiofrequency catheter ablation, the anatomic structure characteristics of pulmonary veins were assessed by multi-slice spiral computed tomography while the values of left atrial diameter (LAD) were measured with transesophageal ultrasonic cardiogram. After radiofrequency catheter ablation, postoperative recurrence was evaluated during a 10-month term follow-up.

Principal Findings

During follow-up, postoperative recurrence occurred in 44 patients. The mean diameters of LAD, left superior PV, right superior PV, all left PV, and all superior PV were significantly larger in patients with postoperative recurrence (Recurrence vs. Non-recurrence group; 43.9 ± 6.4 mm vs. 40.7 ± 5.6 mm; 18.4 ± 2.1 mm vs. 17.1 ± 3.1 mm; 18.2 ± 2.8 mm vs. 17.2 mm ± 3.9 mm; 16.4 ± 1.5 mm vs. 15.6 ± 2.5 mm; 18.3 ± 2.1 mm vs. 17.1 ± 3.0 mm; respectively; all P < 0.05). Multivariable survival analysis showed that the type and the course of AF, LAD, and the diameters of all superior PV were the independent risk factors for the postoperative recurrence after radiofrequency catheter ablation.

Conclusions

The enlargements of all superior PV and LAD, long course of diseases, and persistent AF were the independent risk factors for the postoperative recurrence after radiofrequency catheter ablation.     

Pulmonary vein isolation with a multielectrode basket catheter

Pulmonary vein (PV) isolation (PVI) techniques have evolved as a curative treatment of atrial fibrillation (AF) since PVI guided by circumferential mapping with a circular catheter was initially proposed. A multielectrode basket catheter (MBC) is also useful for PVI because of some advantages; (1) an MBC provides some information about the PV anatomy on the fluoroscopic image, (2) an MBC can utilize the non-fluoroscopic navigation system, (3) an MBC enables the direct three-dimensional mapping around the PV ostium and antrum, (4) the distal electrodes of the MBC can be used to monitor some activation changes within the PV in real time and thereby indicate the effects of ablation at the ostium and antrum as radiofrequency lesions are created. PVI with an MBC is an effective and safe procedure to cure AF by integrating the PV anatomy and electrophysiology in combination with a non-fluoroscopic three-dimensional navigation system for the ablation catheter.