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关于使用CartoSound进行左心房导航。

On the use of CartoSound for left atrial navigation.

作者信息

Schwartzman David, Zhong Hua

机构信息

Cardiovascular Institute, University of Pittsburgh, Pittsburgh, Pennsylvania 15213-2582, USA.

出版信息

J Cardiovasc Electrophysiol. 2010 Jun 1;21(6):656-64. doi: 10.1111/j.1540-8167.2009.01672.x. Epub 2009 Dec 21.

DOI:10.1111/j.1540-8167.2009.01672.x
PMID:20039990
Abstract

INTRODUCTION

The utility of "virtual" imaging systems for left atrial (LA) navigation has been hampered by inadequate spatial detail, as well as inaccurate integration of more detailed preoperative images, such as those generated by computed tomography (CT). CartoSound is an intracardiac echocardiography (ICE)-based technology that promises to ameliorate these problems. Our objective was to examine the capabilities and optimal use of CartoSound, both as a stand-alone tool and as a facilitator of CT image integration.

METHODS AND RESULTS

In 10 patients, CartoSound models of the LA were generated using each of 4 ICE transducer locations: LA, right atrium (RA), coronary sinus (CS), and esophagus (ESO). Each of these models was used to register CT-derived LA models into the operative workspace. We correlated the comprehensiveness of LA imaging from each transducer location with the quality of the CT registration, as well as the accuracy of mock circumferential antral ablation guided by the CartoSound model alone or by the CT model. The LA transducer location provided the most comprehensive rendering of the LA, which was associated with higher quality CT registration and greater CT-guided mock ablation accuracy. Mock ablation guided by the CartoSound model alone was at least as accurate as CT, although the models were less intuitive.

CONCLUSIONS

For LA navigation, optimal use of CartoSound may require LA transducer location, which is effective for stand-alone use and as a facilitator of CT image integration.

摘要

引言

“虚拟”成像系统用于左心房(LA)导航的效用受到空间细节不足以及术前更详细图像(如计算机断层扫描(CT)生成的图像)整合不准确的阻碍。CartoSound是一种基于心内超声心动图(ICE)的技术,有望改善这些问题。我们的目的是研究CartoSound作为独立工具以及作为CT图像整合辅助工具的能力和最佳使用方法。

方法与结果

在10例患者中,使用4个ICE换能器位置(左心房、右心房、冠状窦和食管)中的每一个生成左心房的CartoSound模型。这些模型中的每一个都用于将CT衍生的左心房模型注册到手术工作空间中。我们将每个换能器位置的左心房成像的全面性与CT注册的质量以及仅由CartoSound模型或CT模型引导的模拟环周窦状静脉消融的准确性进行了关联。左心房换能器位置提供了左心房最全面的呈现,这与更高质量的CT注册和更高的CT引导模拟消融准确性相关。仅由CartoSound模型引导的模拟消融至少与CT一样准确,尽管这些模型不太直观。

结论

对于左心房导航,CartoSound的最佳使用可能需要左心房换能器位置,这对于独立使用以及作为CT图像整合的辅助工具是有效的。

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