Background CartoXP and CartoMerge have been used to treat atrial fibrillation (AF) for several years. Our randomized prospective study compared clinical outcomes of these two versions of three dimensional electroana...Background CartoXP and CartoMerge have been used to treat atrial fibrillation (AF) for several years. Our randomized prospective study compared clinical outcomes of these two versions of three dimensional electroanatomic mapping system in guiding catheter ablation for paroxysmal atrial fibrillation (PAF). Methods Eighty-one patients with symptomatic, drug refractory PAF were randomly assigned to CartoMerge group (n=-42, mean age (54.5 + 13.1) years, history of AF = 3.2 years) or CartoXP group (n=39, mean age (59.8 ± 15.6) years, history of AF = 2.9 years). All patients underwent 64-slice computed tomography (MSCT) 1 to 3 days prior to ablation procedure. Using CartoMergeTM Image Integration Module, 3D anatomical images of the left atrium (LA) and pulmonary veins (PVS) derived from MSCT of CartoMerge group were established and merged with the electroanatomical map. The integrated images were used to guide the procedure of circumferential pulmonary vein isolation (CPVl). In the other group, CPVl was guided just by CartoXP. The endpoint of CPVl in both groups was abolition or dissociation of pulmonary vein potentials (PVPs). Results Mapping points to establish the electroanatomical model of the LA/PVs were 48.7+13.4 in CartoMerge group and 62.5±15.7 in CartoXP group (P〈0.001). Mean distance between mapping points and the MSCT surfaces in CartoMerge group was (1.59±0.33) mm. Accomplishment of abolition or dissociation of PVPs was achieved 95.2% in CartoMerge group and 92.3% in CartoXP group. Durations of procedure and exposure to X-ray were (156±25) minutes, (179±21) minutes (P〈0.001) and (19.6±7.5) minutes, (28.5±12.8) minutes (P 〈0.001), respectively. After a follow-up with duration of (11.9+3.1) months vs (12.4±3.6) months post the first ablation procedure, patients free of AF were 33 (78.6%) in CartoMerge group and 29 (74.4%) in CartoXP group (P〉0.50). No patient suffered pulmonary vein stenosis, atenoesophageal fistula, stroke or death. Conclusion Compared to CartoXP, CartoMerge shortened the catheter ablation procedure and exposure to X-ray, without affecting the clinical outcomes of circumferential pulmonary vein isolation for the treatment of paroxysmal atrial fibrillation in experienced centres.展开更多
Background CartoMerge has been widely used in guiding circumferential pulmonary vein isolation (CPVI) for the treatment of paroxysmal atrial fibrillation (PAF). However, the procedure of landmarks selection varies...Background CartoMerge has been widely used in guiding circumferential pulmonary vein isolation (CPVI) for the treatment of paroxysmal atrial fibrillation (PAF). However, the procedure of landmarks selection varies among operators according to their experience. Techniques have to be established to standardize this procedure. We propose that Overlay Ref could facilitate this procedure. This paper aimed to report our initial experience with CPVI guided by Overlay Ref and CartoMerge for the treatment of PAF. Methods Fifty-nine patients with PAF were enrolled in this study. Using Overlay Ref technique, a reference image (inverted) was faded into the live fluoroscopic image. Landmarks of CartoMerge were selected from anatomic points of the top of superior pulmonary veins (PVs) and the bottom of inferior PVs guided by Overlay Ref image. Overlay Ref images were also used to guide the ablation procedure combining with CartoMerge. Results All patients were successfully mapped by CartoMerge guided by Overlay Ref. The distance between the mapping points and the CT surfaces was (1.42±0.67) mm for the patients as a whole. This led to a successful rate of 96% for isolation of pulmonary veins. Duration of ablation procedure was (92±17) minutes. And the total duration of procedure was (139±32) minutes. CartoMerge could also be performed just with 3 paries to 4 paries selected landmarks guided by Overlay Ref without a full anatomic model constructed by Carto. Then, the total duration of procedure could be shortened to (115±38) minutes. Conclusions Overlay Ref technique can facilitate the catheter ablation of PAF and can help to standardize the procedure of landmarks selection.展开更多
文摘Background CartoXP and CartoMerge have been used to treat atrial fibrillation (AF) for several years. Our randomized prospective study compared clinical outcomes of these two versions of three dimensional electroanatomic mapping system in guiding catheter ablation for paroxysmal atrial fibrillation (PAF). Methods Eighty-one patients with symptomatic, drug refractory PAF were randomly assigned to CartoMerge group (n=-42, mean age (54.5 + 13.1) years, history of AF = 3.2 years) or CartoXP group (n=39, mean age (59.8 ± 15.6) years, history of AF = 2.9 years). All patients underwent 64-slice computed tomography (MSCT) 1 to 3 days prior to ablation procedure. Using CartoMergeTM Image Integration Module, 3D anatomical images of the left atrium (LA) and pulmonary veins (PVS) derived from MSCT of CartoMerge group were established and merged with the electroanatomical map. The integrated images were used to guide the procedure of circumferential pulmonary vein isolation (CPVl). In the other group, CPVl was guided just by CartoXP. The endpoint of CPVl in both groups was abolition or dissociation of pulmonary vein potentials (PVPs). Results Mapping points to establish the electroanatomical model of the LA/PVs were 48.7+13.4 in CartoMerge group and 62.5±15.7 in CartoXP group (P〈0.001). Mean distance between mapping points and the MSCT surfaces in CartoMerge group was (1.59±0.33) mm. Accomplishment of abolition or dissociation of PVPs was achieved 95.2% in CartoMerge group and 92.3% in CartoXP group. Durations of procedure and exposure to X-ray were (156±25) minutes, (179±21) minutes (P〈0.001) and (19.6±7.5) minutes, (28.5±12.8) minutes (P 〈0.001), respectively. After a follow-up with duration of (11.9+3.1) months vs (12.4±3.6) months post the first ablation procedure, patients free of AF were 33 (78.6%) in CartoMerge group and 29 (74.4%) in CartoXP group (P〉0.50). No patient suffered pulmonary vein stenosis, atenoesophageal fistula, stroke or death. Conclusion Compared to CartoXP, CartoMerge shortened the catheter ablation procedure and exposure to X-ray, without affecting the clinical outcomes of circumferential pulmonary vein isolation for the treatment of paroxysmal atrial fibrillation in experienced centres.
文摘Background CartoMerge has been widely used in guiding circumferential pulmonary vein isolation (CPVI) for the treatment of paroxysmal atrial fibrillation (PAF). However, the procedure of landmarks selection varies among operators according to their experience. Techniques have to be established to standardize this procedure. We propose that Overlay Ref could facilitate this procedure. This paper aimed to report our initial experience with CPVI guided by Overlay Ref and CartoMerge for the treatment of PAF. Methods Fifty-nine patients with PAF were enrolled in this study. Using Overlay Ref technique, a reference image (inverted) was faded into the live fluoroscopic image. Landmarks of CartoMerge were selected from anatomic points of the top of superior pulmonary veins (PVs) and the bottom of inferior PVs guided by Overlay Ref image. Overlay Ref images were also used to guide the ablation procedure combining with CartoMerge. Results All patients were successfully mapped by CartoMerge guided by Overlay Ref. The distance between the mapping points and the CT surfaces was (1.42±0.67) mm for the patients as a whole. This led to a successful rate of 96% for isolation of pulmonary veins. Duration of ablation procedure was (92±17) minutes. And the total duration of procedure was (139±32) minutes. CartoMerge could also be performed just with 3 paries to 4 paries selected landmarks guided by Overlay Ref without a full anatomic model constructed by Carto. Then, the total duration of procedure could be shortened to (115±38) minutes. Conclusions Overlay Ref technique can facilitate the catheter ablation of PAF and can help to standardize the procedure of landmarks selection.
