Web-based tools for exploring the potential of quantitative imaging biomarkers in radiology : intensity and texture analysis on the ePAD platform

Schaer, Roger (University of Applied Sciences and Arts Western Switzerland (HES-SO Valais-Wallis)) ; Cid, Yashin Dicente (University of Applied Sciences and Arts Western Switzerland (HES-SO Valais-Wallis) ; University of Geneva, Computer Vision and Multimedia Laboratory, Geneva, Switzerland) ; Alkim, Emel (Stanford University, Department of Radiology and Medicine (Biomedical Informatics), Stanford, CA, USA) ; John, Sheryl (Stanford University, Department of Radiology and Medicine (Biomedical Informatics), Stanford, CA, USA) ; Rubin, Daniel L. (Stanford University, Department of Radiology and Medicine (Biomedical Informatics), Stanford, CA, USA) ; Depeursinge, Adrien (University of Applied Sciences and Arts Western Switzerland (HES-SO Valais-Wallis) ; École Polytechnique Fédérale de Lausanne (EPFL), Biomedical Imaging Group, Lausanne, Switzerland)

Recent papers in the field of radiomics showed strong evidence that novel image biomarkers based on structural tissue properties have the potential to complement and even surpass invasive and costly biopsy-based molecular assays in certain clinical contexts. To date, very few translations of these research results to clinical practive have been carried out. In addition, a majority of the identified imaging biomarkers are perceived as black boxes by end-users, hindering their acceptance in clinical and research environments. We present a suite of plugins called Quantitative Feature Explore (QFExplore) for the open-access cloud-based ePAD platform enabling the exploration and validation of new imaging biomarkers in a clinical environment. The latter include the extraction, visualization and comparison of intensity- and texture-based quantitative imaging features, regional division of regions of interest to reveal tissue diversity, as well as the construction, use and sharing of user-personalized statistical machine learning models. No software installation is required and the platform can be accessed through any web browser. The relevance of the developed tools is demonstrated in the context of various clinical use-cases. The software is available online.


Mots-clés:
Faculté:
Economie et Services
Ecole:
HEG VS HES-SO Valais-Wallis - Haute Ecole de Gestion & Tourisme
Institut:
Institut Informatique de gestion
Classification:
Economie/gestion
Adresse bibliogr.:
[S. l.], Elsevier
Date:
[S. l.]
Elsevier
2017
Pagination:
pp. 379–410
Veröffentlicht in
Biomedical texture analysis : fundamentals, tools and challenges
DOI:
ISBN:
978-0-12-812133-7
Le document apparaît dans:

Note: The status of this file is: restricted


 Datensatz erzeugt am 2017-10-30, letzte Änderung am 2018-08-31

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