Title of article
Integration of cardiac magnetic resonance imaging with three-dimensional electroanatomic mapping to guide left ventricular catheter manipulation: Feasibility in a porcine model of healed myocardial infarction Original Research Article
Author/Authors
Vivek Y. Reddy، نويسنده , , Zachary J. Malchano، نويسنده , , Godtfred Holmvang، نويسنده , , Ehud J. Schmidt، نويسنده , , Andre dʹAvila، نويسنده , , Christopher Houghtaling، نويسنده , , Raymond C. Chan، نويسنده , , Jeremy N. Ruskin، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
12
From page
2202
To page
2213
Abstract
Objectives
In a series of in vitro and in vivo experiments, we evaluated the feasibility of integrating three-dimensional (3D) magnetic resonance imaging (MRI) and electroanatomic mapping (EAM) data to guide real-time left ventricular (LV) catheter manipulation.
Background
Substrate-based catheter ablation of post-myocardial infarction ventricular tachycardia requires delineation of the scarred myocardium, typically using an EAM system. Cardiac MRI might facilitate this procedure by localizing this myocardial scar.
Methods
A custom program was employed to integrate 3D MRI datasets with real-time EAM. Initially, a plastic model of the LV was used to determine the optimal alignment/registration strategy. To determine the in vivo accuracy of the registration process, ablation lesions were directed at iatrogenic MRI-visible “targets” (iron oxide injections) within normal porcine LVs (n = 5). Finally, this image integration strategy was assessed in a porcine infarction model (n = 6) by targeting ablation lesions to the scar border.
Results
The in vitro experiments revealed that registration of the LV alone results in inaccurate alignment due primarily to rotation along the chamberʹs long axis. Inclusion of the aorta in the registration process rectified this error. In the iron oxide injection experiments, the ablation lesions were 1.8 ± 0.5 mm from the targets. In the porcine infarct model, the catheter could be reliably navigated to the mitral valve annulus, and the ablation lesions were uniformly situated at the scar borders.
Conclusions
These data suggest that registration of pre-acquired magnetic resonance images with real-time mapping is sufficiently accurate to guide LV catheter manipulation in a reliable and clinically relevant manner.
Keywords
CT , myocardial infarction , magnetic resonance imaging , three-dimensional , computed tomography , MRI , 3D , magnetic resonance , MR , MI , Ventricular tachycardia , ICP , TE , SW , EAM , LV , left ventricle/ventricular , VT , TR , electroanatomic mapping , FOV , field of view , iterative closest points , MEAM , magnetic electroanatomical mapping , NEX , number of excitations , slice width , echo time , repetition time
Journal title
JACC (Journal of the American College of Cardiology)
Serial Year
2004
Journal title
JACC (Journal of the American College of Cardiology)
Record number
459597
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