2018
DOI: 10.1097/hp.0000000000000805
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Development and Validation of the Realistic Anthropomorphic Flexible (RAF) Phantom

Abstract: Voxel phantoms developed by segmenting computed tomography images are known to be more anatomically accurate than mathematical phantoms. However, due to their lack of flexibility and the complexity of voxel datasets, the use of voxel phantoms in dosimetry is often impractical. This paper describes the development of the realistic anthropomorphic flexible (RAF) polygonal mesh phantom, a novel phantom based on Boundary Representation (B-Rep) that merges anatomical accuracy and flexibility. Rather than using segm… Show more

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Cited by 13 publications
(17 citation statements)
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“…These phantoms do exist, e.g. ( 20 ) and the use together with a positioning system needs to be further explored. In addition, when comparing simulation results from the three Monte-Carlo codes, and also against measurements, it is worth mentioning that the used model of the patient can greatly affect the simulation results due to two different aspects; the complexity of the model (BOMAB or a voxelised phantom) and how it fits the actual dimensions of the patient.…”
Section: Discussionmentioning
confidence: 99%
“…These phantoms do exist, e.g. ( 20 ) and the use together with a positioning system needs to be further explored. In addition, when comparing simulation results from the three Monte-Carlo codes, and also against measurements, it is worth mentioning that the used model of the patient can greatly affect the simulation results due to two different aspects; the complexity of the model (BOMAB or a voxelised phantom) and how it fits the actual dimensions of the patient.…”
Section: Discussionmentioning
confidence: 99%
“…The differences can be ascribed to the surface smoothing used to eliminate artifacts from CT, the discretization error introduced by the marching cubes algorithm and the conservative nature of the voxelization algorithm. 35 The Hausdorff distance, used to compare the meshes of the segmented pathology and the model adapted to the phantom, had mean values below 0.64 cm. These differences were expected since they are attributed to the mesh modification applied when fitting to the lungs of the phantom and the smoothing to eliminate the staircase effect from the CT.…”
Section: Discussionmentioning
confidence: 99%
“…Modeling started from the realistic anthropomorphic flexible (RAF) phantom, a full body male phantom developed by Lombardo et al 7 using polygonal mesh modeling. This type of geometrical representation is widely used in computer graphic modeling 8 and describes the phantom with a collection of polygons that share vertices and edges fulfilling certain rules.…”
Section: Realistic Anthropomorphic Flexible Phantommentioning
confidence: 99%
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“…The Monte Carlo code has been used for countless cases of computational dosimetric calculation using stochastic methods [16]. A challenged for applying MCNPx in human dosimetry is concerning to the ability of developing human voxelized models in milimetric size that hold greater anthropomorphic and anthropometric complexities [17,18]. Such type of digital MCNPx input file is required to ensure greater reliability in the absorbed dose calculations.…”
mentioning
confidence: 99%