DocumentCode
1852054
Title
Three-Dimensional Activation Sequence Imaging in a Rabbit Model
Author
Chengzong Han ; Zhongming Liu ; Chenguang Liu ; Pogwizd, S. ; Bin He
Author_Institution
Univ. of Minnesota, Minneapolis
fYear
2007
fDate
22-26 Aug. 2007
Firstpage
5609
Lastpage
5611
Abstract
This paper evaluates a biophysical-model based three-dimensional (3-D) activation sequence imaging approach in a rabbit model. In this approach, cardiac electrical sources within the myocardial volume are represented by distributed equivalent current densities; a realistic heart-torso volume conductor model is built from the CT scans of the rabbit´s torso; spatial-temporal regularization is applied when solving the inverse problem of current density estimation; and the activation time at every myocardial location is determined as the time point when the estimated local current density reaches its maximum amplitude. Computer simulations have been conducted to image the activation sequence initiated by pacing 11 sites throughout the ventricular myocardium. Under 20 muV Gaussian white noise, the average correlation coefficient (CC) between the imaged and the simulated activation sequences is 0.92, the average relative error (RE) is 0.19, and the average localization error (LE) is 4.99mm averaged over 11 pacing sites. Even under 60 muV Gaussian white noise, reasonable results can still be achieved by the present approach with CC = 0.89, RE = 0.22, and LE = 6.85 mm. The simulation results demonstrate that the present 3-D imaging approach has reasonable accuracy and robustness against recording noises.
Keywords
biomedical imaging; cardiology; computerised tomography; electromyography; inverse problems; 3D activation sequence imaging; biophysical model; cardiac electrical activity; cardiac electrical sources; current density estimation; distributed equivalent current density; heart-torso volume conductor model; inverse problem; myocardial location; myocardial volume; rabbit model; rabbit torso; Amplitude estimation; Computed tomography; Computer simulation; Conductors; Current density; Inverse problems; Myocardium; Rabbits; Torso; White noise; Action Potentials; Algorithms; Animals; Body Surface Potential Mapping; Computer Simulation; Heart Conduction System; Imaging, Three-Dimensional; Models, Cardiovascular; Rabbits; Radiographic Image Interpretation, Computer-Assisted; Reproducibility of Results; Sensitivity and Specificity; Tomography, X-Ray Computed;
fLanguage
English
Publisher
ieee
Conference_Titel
Engineering in Medicine and Biology Society, 2007. EMBS 2007. 29th Annual International Conference of the IEEE
Conference_Location
Lyon
ISSN
1557-170X
Print_ISBN
978-1-4244-0787-3
Type
conf
DOI
10.1109/IEMBS.2007.4353618
Filename
4353618
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