Observational Study

. 2020 Apr 3;4(1):22.

doi: 10.1186/s41747-020-00150-9.

PRIMAGE project: predictive in silico multiscale analytics to support childhood cancer personalised evaluation empowered by imaging biomarkers

Luis Martí-Bonmatí¹, Ángel Alberich-Bayarri², Ruth Ladenstein³, Ignacio Blanquer⁴, J Damian Segrelles⁴, Leonor Cerdá-Alberich⁵, Polyxeni Gkontra⁵, Barbara Hero⁶, J M García-Aznar^{7

8}, Daniel Keim⁹, Wolfgang Jentner⁹, Karine Seymour¹⁰, Ana Jiménez-Pastor², Ismael González-Valverde², Blanca Martínez de Las Heras¹¹, Samira Essiaf¹², Dawn Walker¹³, Michel Rochette¹⁴, Marian Bubak¹⁵, Jordi Mestres¹⁶, Marco Viceconti¹⁷, Gracia Martí-Besa⁵, Adela Cañete¹¹, Paul Richmond¹³, Kenneth Y Wertheim¹³, Tomasz Gubala¹⁵, Marek Kasztelnik¹⁵, Jan Meizner¹⁵, Piotr Nowakowski¹⁵, Salvador Gilpérez¹⁸, Amelia Suárez¹⁸, Mario Aznar¹⁸, Giuliana Restante¹⁹, Emanuele Neri¹⁹

Affiliations

¹ Medical Imaging Department, La Fe University and Polytechnic Hospital & Biomedical Imaging Research Group (GIBI230) at La Fe University and Polytechnic Hospital and Health Research Institute, Av. Fernando Abril Martorell 106, 46026, Valencia, Spain. marti_lui@gva.es.
² Quantitative Imaging Biomarkers in Medicine, QUIBIM SL, Edificio Europa, Av. de Aragón, 30, Planta 12, 46021, Valencia, Spain.
³ Children's Cancer Research Institute, Vienna, Austria.
⁴ Instituto de Instrumentación para Imagen Molecular (I3M), Universitat Politècnica de València (UPV), c\ Camino de Vera s/n, 46022, Valencia, Spain.
⁵ Biomedical Imaging Research Group (GIBI230), La Fe Health Research Institute, Av. Fernando Abril Martorell 106, Torre E, 46026, Valencia, Spain.
⁶ Department of Pediatrics, Faculty of Medicine and University Hospital Cologne, University of Cologne, Cologne, Germany.
⁷ Multiscale in Mechanical and Biological Engineering, Department of Mechanical Engineering, Universidad de Zaragoza, Zaragoza, Spain.
⁸ Aragón Institute of Engineering Research, Zaragoza, Spain.
⁹ Department of Computer Science, University of Konstanz, Konstanz, Germany.
¹⁰ Medexprim, 815 La Pyrénéenne, 31670, Labège, France.
¹¹ Paediatric Oncology Unit, La Fe University and Polytechnic Hospital, Av. Fernando Abril Martorell 106, Torre G, 2 Floor, 46026, Valencia, Spain.
¹² European Society for Paediatric Oncology, Brussels, Belgium.
¹³ Department of Computer Science and Insigneo Institute of In Silico Medicine, University of Sheffield, Regent Court, 211 Portobello, Sheffield, UK.
¹⁴ Simulation, Modelling and Engineering Software, Ansys Group, Montigny-le-Bretonneux, France.
¹⁵ ACC Cyfronet, AGH University of Science and Technology, Sano Centre for Computational Medicine, Nawojki 11, 30-950, Kraków, Poland.
¹⁶ Chemotargets S.L., Carrer de Baldiri Reixac, 4-8 TI05A7 Torre I, planta 5, A7, 08028, Barcelona, Spain.
¹⁷ Department of Industrial Engineering, Alma Mater Studiorum, University of Bologna, Bologna, Italy.
¹⁸ Matical Innovation, Calle de Torija, 5, 28013, Madrid, Spain.
¹⁹ Department of Translational Research, University of Pisa, Chair Radiodiagnostica 3, Pisa University Hospital, Via Roma 67, 56126, Pisa, Italy.

PMID: 32246291
PMCID: PMC7125275
DOI: 10.1186/s41747-020-00150-9

Observational Study

PRIMAGE project: predictive in silico multiscale analytics to support childhood cancer personalised evaluation empowered by imaging biomarkers

Luis Martí-Bonmatí et al. Eur Radiol Exp. 2020.

. 2020 Apr 3;4(1):22.

doi: 10.1186/s41747-020-00150-9.

Authors

Affiliations

¹ Medical Imaging Department, La Fe University and Polytechnic Hospital & Biomedical Imaging Research Group (GIBI230) at La Fe University and Polytechnic Hospital and Health Research Institute, Av. Fernando Abril Martorell 106, 46026, Valencia, Spain. marti_lui@gva.es.
² Quantitative Imaging Biomarkers in Medicine, QUIBIM SL, Edificio Europa, Av. de Aragón, 30, Planta 12, 46021, Valencia, Spain.
³ Children's Cancer Research Institute, Vienna, Austria.
⁴ Instituto de Instrumentación para Imagen Molecular (I3M), Universitat Politècnica de València (UPV), c\ Camino de Vera s/n, 46022, Valencia, Spain.
⁵ Biomedical Imaging Research Group (GIBI230), La Fe Health Research Institute, Av. Fernando Abril Martorell 106, Torre E, 46026, Valencia, Spain.
⁶ Department of Pediatrics, Faculty of Medicine and University Hospital Cologne, University of Cologne, Cologne, Germany.
⁷ Multiscale in Mechanical and Biological Engineering, Department of Mechanical Engineering, Universidad de Zaragoza, Zaragoza, Spain.
⁸ Aragón Institute of Engineering Research, Zaragoza, Spain.
⁹ Department of Computer Science, University of Konstanz, Konstanz, Germany.
¹⁰ Medexprim, 815 La Pyrénéenne, 31670, Labège, France.
¹¹ Paediatric Oncology Unit, La Fe University and Polytechnic Hospital, Av. Fernando Abril Martorell 106, Torre G, 2 Floor, 46026, Valencia, Spain.
¹² European Society for Paediatric Oncology, Brussels, Belgium.
¹³ Department of Computer Science and Insigneo Institute of In Silico Medicine, University of Sheffield, Regent Court, 211 Portobello, Sheffield, UK.
¹⁴ Simulation, Modelling and Engineering Software, Ansys Group, Montigny-le-Bretonneux, France.
¹⁵ ACC Cyfronet, AGH University of Science and Technology, Sano Centre for Computational Medicine, Nawojki 11, 30-950, Kraków, Poland.
¹⁶ Chemotargets S.L., Carrer de Baldiri Reixac, 4-8 TI05A7 Torre I, planta 5, A7, 08028, Barcelona, Spain.
¹⁷ Department of Industrial Engineering, Alma Mater Studiorum, University of Bologna, Bologna, Italy.
¹⁸ Matical Innovation, Calle de Torija, 5, 28013, Madrid, Spain.
¹⁹ Department of Translational Research, University of Pisa, Chair Radiodiagnostica 3, Pisa University Hospital, Via Roma 67, 56126, Pisa, Italy.

PMID: 32246291
PMCID: PMC7125275
DOI: 10.1186/s41747-020-00150-9

Abstract

PRIMAGE is one of the largest and more ambitious research projects dealing with medical imaging, artificial intelligence and cancer treatment in children. It is a 4-year European Commission-financed project that has 16 European partners in the consortium, including the European Society for Paediatric Oncology, two imaging biobanks, and three prominent European paediatric oncology units. The project is constructed as an observational in silico study involving high-quality anonymised datasets (imaging, clinical, molecular, and genetics) for the training and validation of machine learning and multiscale algorithms. The open cloud-based platform will offer precise clinical assistance for phenotyping (diagnosis), treatment allocation (prediction), and patient endpoints (prognosis), based on the use of imaging biomarkers, tumour growth simulation, advanced visualisation of confidence scores, and machine-learning approaches. The decision support prototype will be constructed and validated on two paediatric cancers: neuroblastoma and diffuse intrinsic pontine glioma. External validation will be performed on data recruited from independent collaborative centres. Final results will be available for the scientific community at the end of the project, and ready for translation to other malignant solid tumours.

Keywords: Artificial intelligence; Biomarkers (tumour); Cloud computing; Diffuse intrinsic pontine glioma; Neuroblastoma.

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Conflict of interest statement

The authors declare that they have no competing interests.

Figures

**Fig. 1**
PRIMAGE technological development

**Fig. 3**
PRIMAGE platform concept diagram

See this image and copyright information in PMC

References

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1. Martí-Bonmatí L, Alberich-Bayarri A, editors. Imaging biomarkers : development and clinical integration. Heidelberg: Springer; 2018.

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PRIMAGE project: predictive in silico multiscale analytics to support childhood cancer personalised evaluation empowered by imaging biomarkers

Affiliations

PRIMAGE project: predictive in silico multiscale analytics to support childhood cancer personalised evaluation empowered by imaging biomarkers

Authors

Affiliations

Abstract

Conflict of interest statement

Figures

References

Publication types

MeSH terms

Substances

Grants and funding

LinkOut - more resources

Full Text Sources

Medical