PURPOSE: Catheter ablation is a common treatment option for atrial fibrillation (AF). Interventional C-arm X-ray systems are used for guiding AF procedures, employing standard view positions. Since the projection angles are not adapted to the individual patient anatomy, standard projections do not necessarily offer the best views of important anatomical structures. Using a pre-procedural 3D data set acquired with MRI or CT, suitable ablation sites (lines) can be identified in advance so an ablation plan can be superimposed on fluoroscopic images to guide the procedure. METHODS: A method was developed to estimate optimized projection views for biplane X-ray C-arm systems based on planning data for AF ablation procedures. The estimated viewing angles were compared to standard angulations using an objective quality metric, the length of the planned ablation line as seen under X-ray. This method was tested using 35 clinical datasets annotated with planned ablation lines for ipsilateral pulmonary vein isolation. RESULTS: The optimized views computed using the new method yielded 28 % less foreshortening of pre-planned ablation lines on average. In one case, anatomy-based view calculation lead to a 69 % reduction in foreshortening. CONCLUSION: The commonly used standard views provide reasonable a priori choices, and some improvement is possible by switching among common angulations depending on the treatment region. Further gains are possible by using anatomy-optimized biplane C-arm angulations.
PURPOSE: Catheter ablation is a common treatment option for atrial fibrillation (AF). Interventional C-arm X-ray systems are used for guiding AF procedures, employing standard view positions. Since the projection angles are not adapted to the individual patient anatomy, standard projections do not necessarily offer the best views of important anatomical structures. Using a pre-procedural 3D data set acquired with MRI or CT, suitable ablation sites (lines) can be identified in advance so an ablation plan can be superimposed on fluoroscopic images to guide the procedure. METHODS: A method was developed to estimate optimized projection views for biplane X-ray C-arm systems based on planning data for AF ablation procedures. The estimated viewing angles were compared to standard angulations using an objective quality metric, the length of the planned ablation line as seen under X-ray. This method was tested using 35 clinical datasets annotated with planned ablation lines for ipsilateral pulmonary vein isolation. RESULTS: The optimized views computed using the new method yielded 28 % less foreshortening of pre-planned ablation lines on average. In one case, anatomy-based view calculation lead to a 69 % reduction in foreshortening. CONCLUSION: The commonly used standard views provide reasonable a priori choices, and some improvement is possible by switching among common angulations depending on the treatment region. Further gains are possible by using anatomy-optimized biplane C-arm angulations.
Authors: Stijn De Buck; Frederik Maes; Joris Ector; Jan Bogaert; Steven Dymarkowski; Hein Heidbüchel; Paul Suetens Journal: IEEE Trans Med Imaging Date: 2005-11 Impact factor: 10.048
Authors: M Haïssaguerre; P Jaïs; D C Shah; S Garrigue; A Takahashi; T Lavergne; M Hocini; J T Peng; R Roudaut; J Clémenty Journal: Circulation Date: 2000-03-28 Impact factor: 29.690
Authors: Nathan E Green; S-Y James Chen; Adam R Hansgen; John C Messenger; Bertron M Groves; John D Carroll Journal: Catheter Cardiovasc Interv Date: 2005-04 Impact factor: 2.692
Authors: Felix Bourier; Dejan Vukajlovic; Alexander Brost; Joachim Hornegger; Norbert Strobel; Klaus Kurzidim Journal: J Cardiovasc Electrophysiol Date: 2012-11-06