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Title
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Asymmetric collimation can significantly reduce patient radiation dose during pulmonary vein isolation
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Author
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Abstract
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| Aims Current fluoroscopic and 3D image-guided treatment of atrial fibrillation (AF) by radiofrequency ablation is characterized by a substantial amount of X-ray radiation. We investigated the potential of an asymmetric collimation technique to reduce dose. Methods and results For 30 patients, referred for AF ablation, we determined the received fluoroscopy dose for various collimation scenarios: a single collimation window encompassing all veins as used in most labs (Sc 1), an optimal adjusted symmetric collimation window encompassing each two ipsilateral veins (Sc 2) or each individual vein (Sc 3) and an optimal asymmetric collimation window encompassing each two ipsilateral veins (Sc 4) or each individual vein (Sc 5). Twenty patients were studied retrospectively and 10 were studied prospectively. Total fluoroscopy effective dose for all collimation strategies amounted to 45 31 mSv for a single collimation field (Sc 1), 36 25 mSv (Sc 2), and 24 14 mSv (Sc 3) for a symmetrically adjusted collimation window and 15 10 (Sc 4) and 5 3 mSv (Sc 5) for an asymmetrically adjusted collimation approach. Validation of symmetric (Sc 2) and asymmetric (Sc 4) collimation in 10 patients confirmed the retrospective analysis. Conclusions Implementation and effective application of an optimal asymmetric collimation approach would yield an average three- to nine-fold reduction of fluoroscopy dose during AF ablation procedures. This reduction exceeds what has been previously reported by implementing an electromagnetic catheter tracking approach. Furthermore, it can be easily integrated in the clinical workflow with limited additional one-time cost. Manufacturers of imaging systems should consider its implementation a priority, and physicians should adopt it in their workflow. |
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Language
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English
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Source (journal)
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Europace. - Oxford
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Publication
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Oxford
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2012
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ISSN
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1099-5129
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DOI
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10.1093/EUROPACE/EUR346
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Volume/pages
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14
:3
(2012)
, p. 437-444
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ISI
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000300717700025
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Full text (Publisher's DOI)
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Full text (publisher's version - intranet only)
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