A tri-modal tissue-equivalent anthropomorphic phantom for PET, CT and multi-parametric MRI radiomics

•Use of agar-based gel mixtures as tissue-equivalent materials for phantoms.•Use of agar-based gel mixtures to simulate simultaneously PET, CT and MRI signal.•Use of agar-based gel mixtures to customize phantom for translational studies.•Multimodal imaging phantom overcomes hybrid systems issues in...

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Veröffentlicht in:	Physica medica 2022-06, Vol.98, p.28-39
Hauptverfasser:	Gallivanone, Francesca, D'Ambrosio, Daniela, Carne, Irene, D'Arcangelo, Micol, Montagna, Paolo, Giroletti, Elio, Poggi, Paolo, Vellani, Cecilia, Moro, Luca, Castiglioni, Isabella
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Sprache:	eng
Schlagworte:	Anthropomorphic phantoms Computed Tomography Magnetic Resonance Imaging Multiparametric Magnetic Resonance Imaging Phantoms, Imaging Positron Emission Tomography Radiomics Reproducibility of Results Tomography, X-Ray Computed - methods
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container_title	Physica medica
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creator	Gallivanone, Francesca D'Ambrosio, Daniela Carne, Irene D'Arcangelo, Micol Montagna, Paolo Giroletti, Elio Poggi, Paolo Vellani, Cecilia Moro, Luca Castiglioni, Isabella
description	•Use of agar-based gel mixtures as tissue-equivalent materials for phantoms.•Use of agar-based gel mixtures to simulate simultaneously PET, CT and MRI signal.•Use of agar-based gel mixtures to customize phantom for translational studies.•Multimodal imaging phantom overcomes hybrid systems issues in radiomics methodology. Radiomics has emerged as an advanced image processing methodology to define quantitative imaging biomarkers for prognosis and prediction of treatment response and outcome. The development of quantitative imaging biomarkers requires careful analysis to define their accuracy, stability and reproducibility through phantom measurements. Few efforts were devoted to develop realistic anthropomorphic phantoms. In this work, we developed a multimodality image phantom suitable for PET, CT and multiparametric MRI imaging. A tissue-equivalent gel-based mixture was designed and tested for compatibility with different imaging modalities. Calibration measurements allowed to assess gel composition to simulate PET, CT and MRI contrasts of oncological lesions. The characterized gel mixture was used to create realistic synthetic lesions (e.g. lesions with irregular shape and non-uniform image contrast), to be inserted in a standard anthropomorphic phantom. In order to show phantom usefulness, issues related to accuracy, stability and reproducibility of radiomic biomarkers were addressed as proofs-of-concept. The procedure for gel preparation was straightforward and the characterized gel mixture allowed to mime simultaneously oncological lesion contrast in CT, PET and MRI imaging. Proofs-of-concept studies suggested that phantom measurements can be customized for specific clinical situations and radiomic protocols. We developed a strategy to manufacture an anthropomorphic, tissue-equivalent, multimodal phantom to be customized on specific radiomics protocols, for addressing specific methodological issues both in mono and multicentric studies.
doi_str_mv	10.1016/j.ejmp.2022.04.007
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Radiomics has emerged as an advanced image processing methodology to define quantitative imaging biomarkers for prognosis and prediction of treatment response and outcome. The development of quantitative imaging biomarkers requires careful analysis to define their accuracy, stability and reproducibility through phantom measurements. Few efforts were devoted to develop realistic anthropomorphic phantoms. In this work, we developed a multimodality image phantom suitable for PET, CT and multiparametric MRI imaging. A tissue-equivalent gel-based mixture was designed and tested for compatibility with different imaging modalities. Calibration measurements allowed to assess gel composition to simulate PET, CT and MRI contrasts of oncological lesions. The characterized gel mixture was used to create realistic synthetic lesions (e.g. lesions with irregular shape and non-uniform image contrast), to be inserted in a standard anthropomorphic phantom. In order to show phantom usefulness, issues related to accuracy, stability and reproducibility of radiomic biomarkers were addressed as proofs-of-concept. The procedure for gel preparation was straightforward and the characterized gel mixture allowed to mime simultaneously oncological lesion contrast in CT, PET and MRI imaging. Proofs-of-concept studies suggested that phantom measurements can be customized for specific clinical situations and radiomic protocols. 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Radiomics has emerged as an advanced image processing methodology to define quantitative imaging biomarkers for prognosis and prediction of treatment response and outcome. The development of quantitative imaging biomarkers requires careful analysis to define their accuracy, stability and reproducibility through phantom measurements. Few efforts were devoted to develop realistic anthropomorphic phantoms. In this work, we developed a multimodality image phantom suitable for PET, CT and multiparametric MRI imaging. A tissue-equivalent gel-based mixture was designed and tested for compatibility with different imaging modalities. Calibration measurements allowed to assess gel composition to simulate PET, CT and MRI contrasts of oncological lesions. The characterized gel mixture was used to create realistic synthetic lesions (e.g. lesions with irregular shape and non-uniform image contrast), to be inserted in a standard anthropomorphic phantom. In order to show phantom usefulness, issues related to accuracy, stability and reproducibility of radiomic biomarkers were addressed as proofs-of-concept. The procedure for gel preparation was straightforward and the characterized gel mixture allowed to mime simultaneously oncological lesion contrast in CT, PET and MRI imaging. Proofs-of-concept studies suggested that phantom measurements can be customized for specific clinical situations and radiomic protocols. We developed a strategy to manufacture an anthropomorphic, tissue-equivalent, multimodal phantom to be customized on specific radiomics protocols, for addressing specific methodological issues both in mono and multicentric studies.</description><subject>Anthropomorphic phantoms</subject><subject>Computed Tomography</subject><subject>Magnetic Resonance Imaging</subject><subject>Multiparametric Magnetic Resonance Imaging</subject><subject>Phantoms, Imaging</subject><subject>Positron Emission Tomography</subject><subject>Radiomics</subject><subject>Reproducibility of Results</subject><subject>Tomography, X-Ray Computed - methods</subject><issn>1120-1797</issn><issn>1724-191X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2022</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kMtqHDEQRYVJ8Cv-gSyCllm4O3q0WhJkYwa_wCbGTMA7IUs1jIbWqC11G_z30TCOl15VUZy6VB2EvlPSUkL7X5sWNnFsGWGsJV1LiDxAx1SyrqGaPn2pPWWkoVLLI3RSyoYQzpgQh-iIi05pyvQx8hd4yqGJydsBT6GUGRp4mcOrHWA7Ybud1jmNKaY8roPD47pOUsSrlPHD5fIcL5aV8TjOwxSa0WYboeY5fP94i7P1IcXgyjf0dWWHAmfv9RT9vbpcLm6auz_Xt4uLu8ZxTqbGM90pwa1kIKjioh5rmZLe655LZa2iz7brpQZKQQHTvfBe0ZW3rhcUJOen6Oc-d8zpZYYymRiKg2GwW0hzMawXijFNpKwo26Mup1IyrMyYQ7T5zVBidnbNxuzsmp1dQzpT7dalH-_583ME_7HyX2cFfu8BqF--BsimuABbBz5kcJPxKXyW_w_eOosX</recordid><startdate>202206</startdate><enddate>202206</enddate><creator>Gallivanone, Francesca</creator><creator>D'Ambrosio, Daniela</creator><creator>Carne, Irene</creator><creator>D'Arcangelo, Micol</creator><creator>Montagna, Paolo</creator><creator>Giroletti, Elio</creator><creator>Poggi, Paolo</creator><creator>Vellani, Cecilia</creator><creator>Moro, Luca</creator><creator>Castiglioni, Isabella</creator><general>Elsevier Ltd</general><scope>6I.</scope><scope>AAFTH</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>202206</creationdate><title>A tri-modal tissue-equivalent anthropomorphic phantom for PET, CT and multi-parametric MRI radiomics</title><author>Gallivanone, Francesca ; 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Radiomics has emerged as an advanced image processing methodology to define quantitative imaging biomarkers for prognosis and prediction of treatment response and outcome. The development of quantitative imaging biomarkers requires careful analysis to define their accuracy, stability and reproducibility through phantom measurements. Few efforts were devoted to develop realistic anthropomorphic phantoms. In this work, we developed a multimodality image phantom suitable for PET, CT and multiparametric MRI imaging. A tissue-equivalent gel-based mixture was designed and tested for compatibility with different imaging modalities. Calibration measurements allowed to assess gel composition to simulate PET, CT and MRI contrasts of oncological lesions. The characterized gel mixture was used to create realistic synthetic lesions (e.g. lesions with irregular shape and non-uniform image contrast), to be inserted in a standard anthropomorphic phantom. 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subjects	Anthropomorphic phantoms Computed Tomography Magnetic Resonance Imaging Multiparametric Magnetic Resonance Imaging Phantoms, Imaging Positron Emission Tomography Radiomics Reproducibility of Results Tomography, X-Ray Computed - methods
title	A tri-modal tissue-equivalent anthropomorphic phantom for PET, CT and multi-parametric MRI radiomics
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