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Patient radiation dose from x-ray guided endovascular aneurysm repair: a Monte Carlo approach using voxel phantoms and detailed exposure information

Richard Harbron, Mohamed A. Abdelhalim, Elizabeth A. Ainsbury, Jonathan Eakins, Azeem Alam, Choonsik Lee, Bijan Modarai

2020Journal of Radiological Protection24 citationsDOIOpen Access PDF

Abstract

. Using this approach, organ doses were estimated for 183 EVAR procedures in which RDSRs were available. A number of simplified dose estimation methodologies were also investigated for situations in which RDSR data are not available. Results: Mean estimated bone marrow doses were 57 (range: 2-247), 86 (2-328) and 54 (8-250) mGy for infra-renal, fenestrated/branched and thoracic EVAR, respectively. Respective effective doses were 27 (1-208), 54 (1-180) and 37 (5-167) mSv. Dose estimates using non-individualised, average conversion factors, along with those produced using the alternative Monte Carlo code PCXMC, yielded reasonably similar results overall, though variation for individual procedures could exceed 100% for some organs. In conclusion, radiation doses from x-ray guided endovascular aneurysm repairs are potentially high, though this must be placed in the context of the life sparing nature and high success rate for this procedure.

Topics & Concepts

Monte Carlo methodVoxelRadiation doseMedical physicsRadiation exposureX-rayNuclear medicineRadiologyRadiationMedicineComputer sciencePhysicsOpticsMathematicsStatisticsAdvanced X-ray and CT ImagingRadiation Dose and ImagingAortic aneurysm repair treatments
Patient radiation dose from x-ray guided endovascular aneurysm repair: a Monte Carlo approach using voxel phantoms and detailed exposure information | Litcius