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Registration of three-dimensional left atrial computed tomographic images with projection images obtained using fluoroscopy.
Sra, Jasbir; Krum, David; Malloy, Angela; Vass, Melissa; Belanger, Barry; Soubelet, Elisabeth; Vaillant, Regis; Akhtar, Masood.
Afiliação
  • Sra J; Electrophysiology Laboratories, St. Luke's and Aurora Sinai Medical Centers, University of Wisconsin Medical School-Milwaukee Clinical Campus, Milwaukee, WI, USA. bdanek@hrtcare.com
Circulation ; 112(24): 3763-8, 2005 Dec 13.
Article em En | MEDLINE | ID: mdl-16344405
BACKGROUND: Anatomic structures such as the left atrium and the pulmonary veins (PVs) are not delineated by fluoroscopy because there is no contrast differentiation between them and the surrounding anatomy. Representation of an anatomic structure via a 3D model obtained from computed tomography (CT) imaging and subsequent projection of these images over the fluoroscopy system may help in navigation of the mapping and ablation catheter to the appropriate sites during electrophysiology procedures. METHODS AND RESULTS: In this feasibility study, in vitro experiments were performed with a plastic heart model (phantom) with 2 catheters or radiopaque platinum beads placed in the phantom at the time of CT imaging and fluoroscopy. Subsequently, 20 consecutive patients underwent contrast-enhanced, ECG-gated CT scanning. Left atrial volumes were generated from the reconstructed data at &75% of the R-R interval during the cardiac cycle. Similarly, the superior vena cava and the coronary sinus were also reconstructed from these images. During the electrophysiology procedure, digital records (cine sequences) were obtained. Using predetermined algorithms, both the phantom model and the patients' 3D left atrial models derived from the CT were registered with projection images of fluoroscopy. Registration was performed with a transformation that linked the superior vena cava and the coronary sinus from the CT model with a catheter placed inside the coronary sinus via the superior vena cava. Registration was successfully accomplished with the plastic phantom and in all 20 patients. Registration accuracy was assessed in the phantom by assessing the overlapping beads seen both in the CT and the fluoroscopy images. The mean registration error was 1.4 mm (range 0.9 to 2.3 mm). Accuracy of the registered images was assessed in patients with recordings from a basket catheter placed sequentially in the superior PVs and by injecting contrast into the PVs to assess overlapping of contrast-filled PVs with the corresponding vessels on the registered images. The images could be calibrated quite accurately. Any rotational error, which was usually minor, could be corrected by rotating the images as needed. CONCLUSIONS: Registration of 3D models of the left atrium and PVs with fluoroscopic images of the same is feasible and could enable appropriate navigation and localization of the mapping and ablation catheter during procedures such as atrial fibrillation ablation.
Assuntos
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Base de dados: MEDLINE Assunto principal: Diagnóstico por Imagem / Átrios do Coração / Modelos Cardiovasculares Tipo de estudo: Diagnostic_studies Idioma: En Revista: Circulation Ano de publicação: 2005 Tipo de documento: Article País de afiliação: Estados Unidos
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Base de dados: MEDLINE Assunto principal: Diagnóstico por Imagem / Átrios do Coração / Modelos Cardiovasculares Tipo de estudo: Diagnostic_studies Idioma: En Revista: Circulation Ano de publicação: 2005 Tipo de documento: Article País de afiliação: Estados Unidos