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TCGA-GBM-QI-RADIOGENOMICS

The Cancer Imaging Archive

TCGA-GBM-QI-Radiogenomics | Glioblastoma multiforme: exploratory radiogenomic analysis by using quantitative image features

DOI: 10.7937/k9/tcia.2014.rjeftjbu | Data Citation Required | 15 Views | Analysis Result

Cancer Types Location Subjects Related Collections Size Supporting Data Updated
Glioblastoma Brain 55 719.44KB Tumor segmentations 2020/10/07

Summary

PURPOSE:

To derive quantitative image features from magnetic resonance (MR) images that characterize the radiographic phenotype of glioblastoma multiforme (GBM) lesions and to create radiogenomic maps associating these features with various molecular data.

MATERIALS AND METHODS:

Clinical, molecular, and MR imaging data for GBMs in 55 patients were obtained from the The Cancer Genome Atlas Glioblastoma Multiforme Collection (TCGA-GBM) collection after local ethics committee and institutional review board approval. Regions of interest (ROIs) corresponding to enhancing necrotic portions of tumor and peritumoral edema were drawn and saved in AIM format. Quantitative image features were derived from these ROIs. Robust quantitative image features were defined on the basis of an intraclass correlation coefficient of 0.6 for a digital algorithmic modification and a test-retest analysis. The robust features were visualized by using hierarchic clustering and were correlated with survival by using Cox proportional hazards modeling. Next, these robust image features were correlated with manual radiologist annotations from the Visually Accessible Rembrandt Images (VASARI) feature set and GBM molecular subgroups by using nonparametric statistical tests. A bioinformatic algorithm was used to create gene expression modules, defined as a set of coexpressed genes together with a multivariate model of cancer driver genes predictive of the module’s expression pattern. Modules were correlated with robust image features by using the Spearman correlation test to create radiogenomic maps and to link robust image features with molecular pathways.

RESULTS:

Eighteen image features passed the robustness analysis and were further analyzed for the three types of ROIs, for a total of 54 image features. Three enhancement features were significantly correlated with survival, 77 significant correlations were found between robust quantitative features and the VASARI feature set, and seven image features were correlated with molecular subgroups (P < .05 for all). A radiogenomics map was created to link image features with gene expression modules and allowed linkage of 56% (30 of 54) of the image features with biologic processes.

CONCLUSION:

Radiogenomic approaches in GBM have the potential to predict clinical and molecular characteristics of tumors noninvasively.

Data Access

Version 2: Updated 2020/10/07

4 TCGA-GBM patients were removed from the collection, which had been previously analyzed by this group.  Since the images are no longer available this Analysis Result dataset was updated accordingly.

Title Data Type Format Access Points Subjects Studies Series Images License
Segmentations in AIM format Segmentation XML and ZIP 55 321 CC BY 3.0
Segmentation Summary Classification XLS CC BY 3.0

Collections Used In This Analysis Result

Title Data Type Format Access Points Subjects Studies Series Images License
Corresponding Original Images from TCGA-GBM MR DICOM 51 55 102 5,524 TCIA Restricted

Collections Used In This Analysis Result

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Citations & Data Usage Policy

Data Citation Required: Users must abide by the TCIA Data Usage Policy and Restrictions. Attribution must include the following citation, including the Digital Object Identifier:

Data Citation

Gevaert O, Mitchell LA, Achrol AS, Xu J, Echegaray S, Steinberg GK, Cheshier SH, Napel S, Zaharchuk G, Plevritis SK. (2014). Glioblastoma multiforme: exploratory radiogenomic analysis by using quantitative image features. The Cancer Imaging Archive. https://doi.org/10.7937/k9/tcia.2014.rjeftjbu

Related Publications

Publications by the Dataset Authors

The authors recommended the following as the best source of additional information about this dataset:

Publication Citation

Gevaert, O., Mitchell, L. A., Achrol, A. S., Xu, J., Echegaray, S., Steinberg, G. K., Cheshier, S. H., Napel, S., Zaharchuk, G., & Plevritis, S. K. (2014). Glioblastoma Multiforme: Exploratory Radiogenomic Analysis by Using Quantitative Image Features. Radiology, 273(1), 168–174. https://doi.org/10.1148/radiol.14131731

No other publications were recommended by dataset authors.

Research Community Publications

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Publications Using This Data

TCIA maintains a list of publications that leveraged this dataset. If you have a manuscript you’d like to add please contact TCIA’s Helpdesk.

Publication Citation

Gevaert, O., Mitchell, L. A., Achrol, A. S., Xu, J., Echegaray, S., Steinberg, G. K., Cheshier, S. H., Napel, S., Zaharchuk, G., & Plevritis, S. K. (2014). Glioblastoma Multiforme: Exploratory Radiogenomic Analysis by Using Quantitative Image Features. Radiology, 273(1), 168–174. https://doi.org/10.1148/radiol.14131731

Previous Versions

Version 1: Updated 2014/11/05

Title Data Type Format Access Points Subjects Studies Series Images License
Image Data DICOM
Segmentations ZIP
Segmentation Summary XLS