立体定向磁共振引导下针对卵圆窝和左心房的解剖学靶向消融术。

Stereotactic magnetic resonance guidance for anatomically targeted ablations of the fossa ovalis and the left atrium.

作者信息

Dickfeld Timm, Calkins Hugh, Zviman Menekhem, Meininger Glenn, Lickfett Lars, Roguin Ariel, Lardo Albert C, Berger Ronald, Halperin Henry, Solomon Stephen B

机构信息

Division of Cardiology, Johns Hopkins School of Medicine, Baltimore, MD 21287, USA.

出版信息

J Interv Card Electrophysiol. 2004 Oct;11(2):105-15. doi: 10.1023/B:JICE.0000042348.13084.04.

DOI:10.1023/B:JICE.0000042348.13084.04

PMID:15383773

Abstract

INTRODUCTION

Targets for radiofrequency ablation (RFA) of atrial fibrillation are increasingly being selected based on anatomic considerations. Because fluoroscopy provides only limited information about the relationship between catheter positions and cardiac structures, we evaluated whether stereotactic catheter guidance might facilitate anatomical catheter navigation and RFA to the great vessels, the fossa ovalis and the left atrium (LA).

METHODS AND RESULTS

An electromagnetic catheter's position system was superimposed on three-dimensional (3D) MR images using fiducial markers. This allowed the dynamic display of the catheter position on the true anatomy of previously acquired MRI in real-time. To assess the reproducibility of RFA, repeat ablations were created at the identical anatomic site in the inferior vena cava (IVC) in 5 swine. Average distance of the repeated ablations was 4.4 +/- 2.4 mm.In five swine the catheter was anatomically guided with the MRI to the fossa ovalis and a single RFA was performed. On the pathological specimen all ablation sites were located within the fossa ovalis with an average distance of 3.9 +/- 2.1 mm from its center. In two of the experiments the ablation catheter was passed into the left atrium and anatomically targeted ablation performed in the lateral wall of the left atrial appendage. Catheter location and ablation site were confirmed by autopsy and histology.

CONCLUSION

Real-time display of the catheter position on 3D-MRI allows anatomically targeted catheter navigation and RFA in the IVC, the fossa ovalis, and the left atrium. This may facilitate anatomically based interventions like septal puncture or pulmonary vein ablation and decrease fluoroscopy times.

摘要

引言

基于解剖学考虑，越来越多地选择心房颤动射频消融（RFA）的靶点。由于荧光透视仅提供关于导管位置与心脏结构之间关系的有限信息，我们评估了立体定向导管引导是否有助于解剖学导管导航以及对大血管、卵圆窝和左心房（LA）进行RFA。

方法与结果

使用基准标记将电磁导管位置系统叠加在三维（3D）磁共振图像上。这使得能够在实时获取的MRI真实解剖结构上动态显示导管位置。为评估RFA的可重复性，在5头猪的下腔静脉（IVC）相同解剖部位进行重复消融。重复消融的平均距离为4.4±2.4毫米。在5头猪中，通过MRI将导管解剖学引导至卵圆窝并进行单次RFA。在病理标本上，所有消融部位均位于卵圆窝内，距其中心的平均距离为3.9±2.1毫米。在其中两个实验中，将消融导管插入左心房并在左心耳侧壁进行解剖学靶向消融。通过尸检和组织学确认导管位置和消融部位。

结论

在3D-MRI上实时显示导管位置可实现对IVC、卵圆窝和左心房进行解剖学靶向导管导航和RFA。这可能有助于诸如房间隔穿刺或肺静脉消融等基于解剖学的干预，并减少荧光透视时间。

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立体定向磁共振引导下针对卵圆窝和左心房的解剖学靶向消融术。

Stereotactic magnetic resonance guidance for anatomically targeted ablations of the fossa ovalis and the left atrium.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS AND RESULTS

CONCLUSION

引言

方法与结果

结论

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