Preoperative ECG classification of ventricular preexcitation (VPx) has reported accuracy ranging between 80 and 92%. However ablation of septal (S) and paraseptal (PS) accessory pathways (APs), might imply higher risk of failure or of A-V block. Magnetocardiographic mapping (MCG) is an alternative method for non-invasive three-dimensional (3D) localization of VPx. The aim of this study was to compare the accuracy of MCG classification of S and PS VP with that obtained with 7 most used ECG algorithms. Method: 42 patients, with ECG consistent with septal VPx, were studied with 36-channels DC SQUID MMCG system (sensitivity is 20 fT/Hz½, at 1 Hz) recording the z component of magnetic cardiac field from a 36-point grid (20 x 20 cm). MCG localization of VPx was obtained with the Equivalent Current Dipole (ECD), the Effective Magnetic Dipole (EMD) and the Currents Reconstruction (CR) models. 3D multimodal imaging consisted of MCG, MRI, CT and fluoroscopy data fusion. Successful catheter ablation, when clinically required (12 cases), was the goldstandard for validation. Results: MCG classification of VPx was certain in 38/42 pts (90.5%) and was confirmed in all 12 pts undergoing successful ablation. ECG classification was certain in 29/42 (69%) pts, but uncertain in 13/42 (31%). MCG provided a clear-cut localization in 7/11 pts with uncertain ECG and demonstrated complex activation patters during the delta wave in the remaining 4, consistent with possible branching of septal pathways, unpredictable on the basis of ECG. Conclusion: As compared to ECG, MCG classification of S and PS VPx is more accurate because it adds: 1) information on the origin and the direction of the preexcitation wavefront across the septal area; 2) 3D electroanatomical imaging of the VPx site into a 3D model of the patient's heart reconstructed from MRI, with easy differentiation among superior (anterior), inferior (posterior) and midseptal APs. In the EP laboratory, the 3D heart model with MCG localization can be interactively rotated to match with 2D fluoroscopic projections, thus facilitating anatomically appropriate mapping and positioning of the ablation catheter, without other navigation systems

Brisinda, D., Casella, M., Dello Russo, A., Fenici, R., Magnetocardiographic localization and imaging of septal Kent-type accessory pathways, Abstract de <<15th International Conference on Biomagnetism. BIOMAG 2006>>, (Vancouver, 20-26 August 2006 ), N/A, Vancouver 2006: 220-220 [http://hdl.handle.net/10807/21234]

Magnetocardiographic localization and imaging of septal Kent-type accessory pathways

Brisinda, Donatella;Dello Russo, Antonio;Fenici, Riccardo
2006

Abstract

Preoperative ECG classification of ventricular preexcitation (VPx) has reported accuracy ranging between 80 and 92%. However ablation of septal (S) and paraseptal (PS) accessory pathways (APs), might imply higher risk of failure or of A-V block. Magnetocardiographic mapping (MCG) is an alternative method for non-invasive three-dimensional (3D) localization of VPx. The aim of this study was to compare the accuracy of MCG classification of S and PS VP with that obtained with 7 most used ECG algorithms. Method: 42 patients, with ECG consistent with septal VPx, were studied with 36-channels DC SQUID MMCG system (sensitivity is 20 fT/Hz½, at 1 Hz) recording the z component of magnetic cardiac field from a 36-point grid (20 x 20 cm). MCG localization of VPx was obtained with the Equivalent Current Dipole (ECD), the Effective Magnetic Dipole (EMD) and the Currents Reconstruction (CR) models. 3D multimodal imaging consisted of MCG, MRI, CT and fluoroscopy data fusion. Successful catheter ablation, when clinically required (12 cases), was the goldstandard for validation. Results: MCG classification of VPx was certain in 38/42 pts (90.5%) and was confirmed in all 12 pts undergoing successful ablation. ECG classification was certain in 29/42 (69%) pts, but uncertain in 13/42 (31%). MCG provided a clear-cut localization in 7/11 pts with uncertain ECG and demonstrated complex activation patters during the delta wave in the remaining 4, consistent with possible branching of septal pathways, unpredictable on the basis of ECG. Conclusion: As compared to ECG, MCG classification of S and PS VPx is more accurate because it adds: 1) information on the origin and the direction of the preexcitation wavefront across the septal area; 2) 3D electroanatomical imaging of the VPx site into a 3D model of the patient's heart reconstructed from MRI, with easy differentiation among superior (anterior), inferior (posterior) and midseptal APs. In the EP laboratory, the 3D heart model with MCG localization can be interactively rotated to match with 2D fluoroscopic projections, thus facilitating anatomically appropriate mapping and positioning of the ablation catheter, without other navigation systems
2006
Inglese
Abstracts Book
15th International Conference on Biomagnetism. BIOMAG 2006
Vancouver
20-ago-2006
26-ago-2006
N/A
Brisinda, D., Casella, M., Dello Russo, A., Fenici, R., Magnetocardiographic localization and imaging of septal Kent-type accessory pathways, Abstract de <<15th International Conference on Biomagnetism. BIOMAG 2006>>, (Vancouver, 20-26 August 2006 ), N/A, Vancouver 2006: 220-220 [http://hdl.handle.net/10807/21234]
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10807/21234
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus ND
  • ???jsp.display-item.citation.isi??? ND
social impact