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PV Anatomy (pv + anatomy)
Selected AbstractsDoes Left Atrial Volume and Pulmonary Venous Anatomy Predict the Outcome of Catheter Ablation of Atrial Fibrillation?JOURNAL OF CARDIOVASCULAR ELECTROPHYSIOLOGY, Issue 9 2009IRENE HOF M.D. Introduction: Preprocedural factors may be helpful in selecting patients with atrial fibrillation (AF) for treatment with catheter ablation and in making an assumption regarding their prognosis. The aims of this study were to investigate whether left atrial (LA) volume and pulmonary venous (PV) anatomy, evaluated by computed tomography (CT) prior to ablation, will predict AF recurrence following catheter ablation. Methods and Results: We included 146 patients (mean age 57 ± 11 years, 83% male) with symptomatic AF (55% paroxysmal, 18% persistent, 27% long-standing persistent). All patients underwent CT scanning prior to catheter ablation to evaluate LA volume and PV anatomy. Circumferential PV isolation was performed guided by Cartomerge electroanatomical mapping. The outcome was defined as complete success, improvement, or failure. After a mean follow-up of 19 ±7 months, complete success was achieved in 59 patients (40%), and 38 patients (26%) demonstrated improvement. LA volume was found to be an independent predictor of AF recurrence with an adjusted OR of 1.14 for every 10-mL increase in volume (95% CI 1.00,1.29, P = 0.047). PV variations were equally distributed among the different outcomes of the ablation procedure, and therefore univariate analysis did not identify PV anatomy as a predictor of outcome. Conclusion: LA volume is an independent predictor of AF recurrence after catheter ablation. Additionally, PV anatomy did not have any effect on the outcome. These findings suggest that an assessment of LA volume may be incorporated into the preprocedural evaluation of patients being considered for AF ablation. [source] Characterization of a New Pulmonary Vein Variant Using Magnetic Resonance Angiography:JOURNAL OF CARDIOVASCULAR ELECTROPHYSIOLOGY, Issue 5 2004Imaging, Incidence, Interventional Implications of the "Right Top Pulmonary Vein" Introduction: Catheter ablation of the pulmonary veins (PVs) for prevention of recurrent atrial fibrillation requires precise anatomic information. We describe the characteristics of a new anatomic variant of PV anatomy using magnetic resonance angiography. Methods and Results: A 1.5-T magnetic resonance imaging system with a body coil or a torso phased-array coil was used before and after gadolinium injection. Magnetic resonance angiograms were acquired with a breath-hold three-dimensional fast spoiled gradient-echo imaging sequence in the coronal plane. Three-dimensional reconstruction with maximum intensity projections and multiplanar reformations was performed. A newly described variant PV ascending from the roof of the left atrium was found in 3 of 91 subjects. The mean ostial diameter of the roof PV was 7 ± 2 mm, the mean distance from the ostium to the first branching point was 22 ± 8.5 mm, and the mean distance to the right superior PV was 3.3 ± 0.6 mm. Conclusion: We refer to the newly described variant of PV anatomy as the "right top pulmonary vein." It is important to be aware of this anatomic pattern to avoid inadvertent catheter intubation, which can result in misleading mapping results and PV stenosis. (J Cardiovasc Electrophysiol, Vol. 15, pp. 538-543, May 2004) [source] Anatomy of the Pulmonary Veins in Patients with Atrial Fibrillation and Effects of Segmental Ostial Ablation Analyzed by Computed TomographyJOURNAL OF CARDIOVASCULAR ELECTROPHYSIOLOGY, Issue 2 2003CHRISTOPH SCHARF M.D. Pulmonary Vein Anatomy.Introduction: The anatomic arrangement of pulmonary veins (PVs) is variable. No prior studies have quantitatively analyzed the effects of segmental ostial ablation on the PVs. The aim of this study was to determine the effect of segmental ostial radiofrequency ablation on PV anatomy in patients with atrial fibrillation (AF). Methods and Results: Three-dimensional models of the PVs were constructed from computed tomographic (CT) scans in 58 patients with AF undergoing segmental ostial ablation to isolate the PVs and in 10 control subjects without a history of AF. CT scans were repeated approximately 4 months later. PV and left atrial dimensions were measured with digital calipers. Four separate PV ostia were present in 47 subjects; 3 ostia were present in 2 subjects; and 5 ostia were present in 9 subjects. The superior PVs had a larger ostium than the inferior PVs. Patients with AF had a larger left atrial area between the PV ostia and larger ostial diameters than the controls. Segmental ostial ablation resulted in a 1.5 ± 3.2 mm narrowing of the ostial diameter. A 28% to 61% focal stenosis was present 7.6 ± 2.2 mm from the ostium in 3% of 128 isolated PVs. There were no instances of symptomatic PV stenosis during a mean follow-up of 245 ± 105 days. Conclusion: CT of the PVs allows identification of anatomic variants prior to catheter ablation procedures. Segmental ostial ablation results in a significant but small reduction in ostial diameter. Focal stenosis occurs infrequently and is attributable to delivery of radiofrequency energy within the PV. (J Cardiovasc Electrophysiol, Vol. 14, pp. 150-155, February 2003) [source] Technique and outcome of autologous portal Y-graft interposition for anomalous right portal veins in living donor liver transplantationLIVER TRANSPLANTATION, Issue 4 2009Shin Hwang This study was intended to describe in detail the surgical technique and long-term outcome of autologous portal vein (PV) Y-graft interposition for adult living donor liver transplantation (LDLT). We assessed the outcome of 841 patients who underwent right lobe LDLT from January 2002 to December 2007 with respect to the reconstruction of double-graft PVs. PV anatomy of the donor livers was classified as type I in 796 patients (94.6%), type II in 15 patients (1.8%), and type III in 30 patients (3.6%). Seven type II grafts and all type III PV grafts had double PV orifices. Autologous PV Y-graft interposition was used in 31 patients, and complications occurred in only 1 patient during a median follow-up of 27 months. Overall, the 1- and 3-year graft survival rates were 87.5% and 80.6%, respectively. Use of a Y-graft was not a risk factor for biliary complications, but the liver anatomy of anomalous PV per se seems to be associated with a higher occurrence of biliary complications, especially during the early posttransplant period. The favorable outcome and technical feasibility of autologous portal Y-graft interposition imply that this technique could be the standard procedure for reconstruction of right lobe grafts with double PV orifices. Liver Transpl 15:427,434, 2009. © 2009 AASLD. [source] | ||||||||||