Abstract

Abstract Radiomics aims to quantify phenotypic characteristics on medical imaging through the use of automated algorithms. Radiomic artificial intelligence (AI) technology, either based on engineered hard-coded algorithms or deep learning methods, can be used to develop noninvasive imaging-based biomarkers. However, lack of standardized algorithm definitions and image processing severely hampers reproducibility and comparability of results. To address this issue, we developed PyRadiomics, a flexible open-source platform capable of extracting a large panel of engineered features from medical images. PyRadiomics is implemented in Python and can be used standalone or using 3D Slicer. Here, we discuss the workflow and architecture of PyRadiomics and demonstrate its application in characterizing lung lesions. Source code, documentation, and examples are publicly available at www.radiomics.io. With this platform, we aim to establish a reference standard for radiomic analyses, provide a tested and maintained resource, and to grow the community of radiomic developers addressing critical needs in cancer research. Cancer Res; 77(21); e104–7. ©2017 AACR.

Keywords

PhenotypeRadiomicsComputational biologyRadiographyMedicineComputer scienceGeneticsBiologyRadiologyGene

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Publication Info

Year
2017
Type
article
Volume
77
Issue
21
Pages
e104-e107
Citations
5930
Access
Closed

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Joost J. M. van Griethuysen, Andriy Fedorov, Chintan Parmar et al. (2017). Computational Radiomics System to Decode the Radiographic Phenotype. Cancer Research , 77 (21) , e104-e107. https://doi.org/10.1158/0008-5472.can-17-0339

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DOI
10.1158/0008-5472.can-17-0339