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Additively manufactured test phantoms for mimicking soft tissue radiation attenuation in CBCT using Polyjet technology

Sepideh Hatamikia, Gunpreet Oberoi, Anna Zacher, Gernot Kronreif, Wolfgang Birkfellner, Joachim Kettenbach, Stefanie Ponti, Andrea Lorenz, Martin Buschmann, László Jaksa, Nikolaus Irnstorfer, Ewald Unger

2022Zeitschrift für Medizinische Physik13 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: To develop and validate a simple approach for building cost-effective imaging phantoms for Cone Beam Computed Tomography (CBCT) using a modified Polyjet additive manufacturing technology where a single material can mimic a range of human soft-tissue radiation attenuation. MATERIALS AND METHODS: Single material test phantoms using a cubic lattice were designed in 3-Matic 15.0 software . Keeping the individual cubic lattice volume constant, eight different percentage ratio (R) of air: material from 0% to 70% with a 10% increment were assigned to each sample. The phantoms were printed in three materials, namely Vero PureWhite, VeroClear and TangoPlus using Polyjet technology. The CT value analysis, non-contact profile measurement and microCT-based volumetric analysis was performed for all the samples. RESULTS: The printed test phantoms produced a grey value spectrum equivalent to the radiation attenuation of human soft tissues in the range of -757 to +286 HU on CT. The results from dimensional comparison analysis of the printed phantoms with the digital test phantoms using non-contact profile measurement showed a mean accuracy of 99.07 % and that of micro-CT volumetric analysis showed mean volumetric accuracy of 84.80-94.91%. The material and printing costs of developing 24 test phantoms was 83.00 Euro. CONCLUSIONS: resolution, helping customization of imaging phantoms.

Topics & Concepts

Soft tissueBiomedical engineeringAttenuationMaterials scienceHard tissueNuclear medicineMedical physicsMedicineDentistryRadiologyOpticsPhysicsAdvanced Radiotherapy TechniquesAdvanced X-ray and CT ImagingDental Radiography and Imaging
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