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A customized anthropomorphic 3D-printed phantom to reproducibility assessment in computed tomography: an oncological case study. | LitMetric

AI Article Synopsis

  • The study focuses on developing a new anthropomorphic 3D-printed phantom for chest lesions to assess CT imaging variability across different acquisition settings while considering radiation exposure and ethical concerns.* -
  • A detailed segmentation of a CT scan from a 75-year-old patient was used to create the phantom, utilizing Fused Deposition Modeling (FDM) technology with specific materials to replicate different tissue types based on Hounsfield Unit (HU) values.* -
  • Results showed strong similarities in compartment overlap and lesion vascularization across scans using different tube voltages and scanners, indicating that the phantom effectively mimics real patient anatomy for further CT research.*

Article Abstract

Introduction: Studies on computed tomography (CT) reproducibility at different acquisition parameters have to take into account radiation dose administered and related ethical issues. 3D-printed phantoms provide the possibility to investigate these features deeply and to foster CT research, also taking advantage by outperforming new generation scanners. The aim of this study is to propose a new anthropomorphic 3D-printed phantom for chest lesions, tailored on a real patient CT scan, to investigate the variability of volume and Hounsfield Unit (HU) measurements at different CT acquisition parameters.

Methods: The chest CT of a 75-year-old patient with a paramediastinal lung lesion was segmented based on an eight-compartment approach related to HU ranges (air lung, lung interstitium, fat, muscle, vascular, skin, bone, and lesion). From each mask produced, the 3D.stl model was exported and linked to a different printing infill value, based on a preliminary test and HU ratios derived from the patient scan. Fused deposition modeling (FDM) technology printing was chosen with filament materials in polylactic acid (PLA). Phantom was acquired at 50 mAs and three different tube voltages of 80, 100, and 120 kVp on two different scanners, namely, Siemens Somatom Force (Siemens Healthineers, Erlangen, Germany; same setting of real patient for 80 kVp acquisition) and GE 750 HD CT (GE Healthcare, Chicago, IL). The same segmentation workflow was then applied on each phantom acquisition after coregistration pipeline, and Dice Similarity Coefficient (DSC) and HU averages were extracted and compared for each compartment.

Results: DSC comparison among real patient phantom scans at different kVp, and on both CT scanners, demonstrated a good overlap of different compartments and lesion vascularization with a higher similarity for lung and lesion masks for each setting (about 0.9 and 0.8, respectively). Although mean HU was not comparable with real data, due to the PLA material, the proportion of intensity values for each compartment remains respected.

Discussion: The proposed approach demonstrated the reliability of 3D-printed technology for personalized approaches in CT research, opening to the application of the same workflow to other oncological fields.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10493384PMC
http://dx.doi.org/10.3389/fonc.2023.1123796DOI Listing

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