Abstract
BackgroundThree-dimensional mapping systems and the use of ultra-low dose radiation protocols have supported minimization of radiation dose during left atrial ablation procedures. By using optimal shielding, scattered radiation reaching the operator can be further reduced. This prospective study was designed to determine the remaining operator radiation exposure during left atrial catheter ablations using real-time dosimetry.MethodsRadiation dose was recorded using real-time digital dosimetry badges outside the lead apron during 201 consecutive left atrial fibrillation ablation procedures. All procedures were performed using the same X‑ray system (Siemens Healthineers Artis dBc; Siemens Healthcare AG, Erlangen, Germany) programmed with ultra-low dose radiation settings including a low frame rate (two frames per second), maximum copper filtration, and an optimized detector dose. To reduce scattered radiation to the operators, table-suspended lead curtains, ceiling-suspended leaded plastic shields, and radiation-absorbing shields on the patient were positioned in an overlapping configuration.ResultsThe 201 procedures included 139 (69%) pulmonary vein isolations (PVI) (20 cryoballoon ablations, 119 radiofrequency ablations, with 35 cases receiving additional ablation of the cavotricuspid isthmus) and 62 (31%) PVI plus further left atrial substrate ablation.Mean radiation dose measured as dose area product for all procedures was 128.09 ± 187.87 cGy ∙ cm2 with a mean fluoroscopy duration of 9.4 ± 8.7 min. Real-time dosimetry showed very low average operator doses of 0.52 ± 0.10 µSv. A subanalysis of 51 (25%) procedures showed that the radiation burden for the operator was highest during pulmonary vein angiography.ConclusionThe use of ultra-low dose radiation protocols in combination with optimized shielding results in extremely low scattered radiation reaching the operator.
Highlights
Introduction and backgroundDespite the widespread use of nonfluoroscopic catheter visualization, fluoroscopy remains an essential part of catheter and wire localization
This study demonstrates that by using an ultra-low-dose setting and optimal shielding, radiation reaching the operator can be largely reduced
Table-suspended lead curtains and ceiling-suspended shields should be positioned in an overlapping configuration to ensure maximum protection against scattered radiation, especially during left atrial angiography
Summary
Introduction and backgroundDespite the widespread use of nonfluoroscopic catheter visualization, fluoroscopy remains an essential part of catheter and wire localization. Increased awareness lead to the development of ultra-low dose programs with optimized image processing and system settings, resulting in average doses that equal as little as 1% of an ablation procedure performed 6 years ago [2, 6]. The purpose of this study was to determine the amount of radiation received by the operator as measured by dosimeters during atrial fibrillation ablation procedures. Three-dimensional mapping systems and the use of ultra-low dose radiation protocols have supported minimization of radiation dose during left atrial ablation procedures. By using optimal shielding, scattered radiation reaching the operator can be further reduced. This prospective study was designed to determine the remaining operator radiation exposure during left atrial catheter ablations using real-time dosimetry. The 201 procedures included 139 (69%) pulmonary vein isolations (PVI) (20 cryoballoon ablations, 119 radiofrequency ablations, with 35 cases receiving additional ablation of the cavotricuspid isthmus) and 62 (31%) PVI plus further left atrial substrate ablation
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
