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An open source, 3D printed preclinical MRI phantom for repeated measures of contrast agents and reference standards.
Cox, B L; Ludwig, K D; Adamson, E B; Eliceiri, K W; Fain, S B.
Afiliação
  • Cox BL; Department of Medical Physics, University of Wisconsin-Madison, 1111 Highland Ave., Madison, WI 53705.
  • Ludwig KD; Morgridge Institute for Research, 330 N. Orchard St., Madison, WI 53715.
  • Adamson EB; Laboratory for Optical and Computational Instrumentation, University of Wisconsin-Madison, 1675 Observatory Dr., Madison, WI 53706.
  • Eliceiri KW; Department of Medical Physics, University of Wisconsin-Madison, 1111 Highland Ave., Madison, WI 53705.
  • Fain SB; Department of Medical Physics, University of Wisconsin-Madison, 1111 Highland Ave., Madison, WI 53705.
Article em En | MEDLINE | ID: mdl-29399370
In medical imaging, clinicians, researchers and technicians have begun to use 3D printing to create specialized phantoms to replace commercial ones due to their customizable and iterative nature. Presented here is the design of a 3D printed open source, reusable magnetic resonance imaging (MRI) phantom, capable of flood-filling, with removable samples for measurements of contrast agent solutions and reference standards, and for use in evaluating acquisition techniques and image reconstruction performance. The phantom was designed using SolidWorks, a computer-aided design software package. The phantom consists of custom and off-the-shelf parts and incorporates an air hole and Luer Lock system to aid in flood filling, a marker for orientation of samples in the filled mode and bolt and tube holes for assembly. The cost of construction for all materials is under $90. All design files are open-source and available for download. To demonstrate utility, B0 field mapping was performed using a series of gadolinium concentrations in both the unfilled and flood-filled mode. An excellent linear agreement (R2>0.998) was observed between measured relaxation rates (R1/R2) and gadolinium concentration. The phantom provides a reliable setup to test data acquisition and reconstruction methods and verify physical alignment in alternative nuclei MRI techniques (e.g. carbon-13 and fluorine-19 MRI). A cost-effective, open-source MRI phantom design for repeated quantitative measurement of contrast agents and reference standards in preclinical research is presented. Specifically, the work is an example of how the emerging technology of 3D printing improves flexibility and access for custom phantom design.
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2018 Tipo de documento: Article

Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2018 Tipo de documento: Article