An anthropomorphic multimodality (CT/MRI) phantom prototype for end-to-end tests in radiation therapy (1402.3793v2)

Abstract: With the increasing complexity of external beam therapy, so-called "end-to-end" tests are intended to cover all steps from therapy planning to follow-up to fulfill the high demands on quality assurance. As magnetic resonance imaging (MRI) gains growing importance in the treatment process and established phantoms (such as the Alderson head) cannot be used for those tests, novel multimodality phantoms have to be developed. Here, we present a feasibility study for such a customizable multimodality head phantom. We used a set of patient CT images as the basis for the anthropomorphic head shape. The recipient - consisting of an epoxy resin - was produced using rapid prototyping (3D printing). The phantom recipient includes a nasal air cavity, two soft tissues volumes and cranial bone. Additionally a spherical tumor volume was positioned in the center. The volumes were filled with dipotassium phosphate-based cranial bone surrogate, agarose gel, and distilled water. The tumor volume was filled with normoxic dosimetric gel. The entire workflow of radiation therapy including a clinical proton irradiation could be successfully applied to the phantom. CT measurements revealed Hounsfield units agreeing with reference values for all surrogates. The MRI contrasts corresponded to the expectations on the phantom materials except for the bone surrogate providing an undesirably high signal intensity. The dose verification by T2-weighted read out of the polymerization gel dosimeter could successfully show a correct plan delivery in terms of particle range.