MICCAI 2013 Challenge on Multimodal Brain Tumor Segmentation (BraTS2013)

Name	DL	Torrents	Total Size
Computer Vision [edit]	RSS CSV	79	1.41TB	563	0
Medical [edit]	RSS CSV	87	2.20TB	731	0

BRATS2013 (900 files)

Image_Data/HG/0001/VSD.Brain.XX.O.MR_Flair/VSD.Brain.XX.O.MR_Flair.684.mha	2.03MB
Image_Data/HG/0001/VSD.Brain.XX.O.MR_Flair/VSD.Brain.XX.O.MR_Flair.684_N4ITK.mha	24.33MB
Image_Data/HG/0001/VSD.Brain.XX.O.MR_T1/VSD.Brain.XX.O.MR_T1.685.mha	1.89MB
Image_Data/HG/0001/VSD.Brain.XX.O.MR_T1/VSD.Brain.XX.O.MR_T1.685_N4ITK.mha	24.33MB
Image_Data/HG/0001/VSD.Brain.XX.O.MR_T1c/VSD.Brain.XX.O.MR_T1c.686.mha	2.10MB
Image_Data/HG/0001/VSD.Brain.XX.O.MR_T1c/VSD.Brain.XX.O.MR_T1c.686_N4ITK.mha	24.33MB
Image_Data/HG/0001/VSD.Brain.XX.O.MR_T2/VSD.Brain.XX.O.MR_T2.687.mha	2.13MB
Image_Data/HG/0001/VSD.Brain.XX.O.MR_T2/VSD.Brain.XX.O.MR_T2.687_N4ITK.mha	24.33MB
Image_Data/HG/0001/VSD.Brain_3more.XX.XX.OT/VSD.Brain_3more.XX.XX.OT.6560.mha	33.40kB
Image_Data/HG/0001/VSD.Brain_3more.XX.XX.OT/VSD.Brain_3more.XX.XX.OT.6560_N4ITK.mha	24.33MB
Image_Data/HG/0002/VSD.Brain.XX.O.MR_Flair/VSD.Brain.XX.O.MR_Flair.691.mha	2.17MB
Image_Data/HG/0002/VSD.Brain.XX.O.MR_Flair/VSD.Brain.XX.O.MR_Flair.691_N4ITK.mha	24.33MB
Image_Data/HG/0002/VSD.Brain.XX.O.MR_T1/VSD.Brain.XX.O.MR_T1.692.mha	2.05MB
Image_Data/HG/0002/VSD.Brain.XX.O.MR_T1/VSD.Brain.XX.O.MR_T1.692_N4ITK.mha	24.33MB
Image_Data/HG/0002/VSD.Brain.XX.O.MR_T1c/VSD.Brain.XX.O.MR_T1c.693.mha	2.30MB
Image_Data/HG/0002/VSD.Brain.XX.O.MR_T1c/VSD.Brain.XX.O.MR_T1c.693_N4ITK.mha	24.33MB
Image_Data/HG/0002/VSD.Brain.XX.O.MR_T2/VSD.Brain.XX.O.MR_T2.694.mha	2.29MB
Image_Data/HG/0002/VSD.Brain.XX.O.MR_T2/VSD.Brain.XX.O.MR_T2.694_N4ITK.mha	24.33MB
Image_Data/HG/0002/VSD.Brain_3more.XX.XX.OT/VSD.Brain_3more.XX.XX.OT.6562.mha	23.33kB
Image_Data/HG/0002/VSD.Brain_3more.XX.XX.OT/VSD.Brain_3more.XX.XX.OT.6562_N4ITK.mha	24.33MB
Image_Data/HG/0003/VSD.Brain.XX.O.MR_Flair/VSD.Brain.XX.O.MR_Flair.697.mha	2.29MB
Image_Data/HG/0003/VSD.Brain.XX.O.MR_Flair/VSD.Brain.XX.O.MR_Flair.697_N4ITK.mha	26.76MB
Image_Data/HG/0003/VSD.Brain.XX.O.MR_T1/VSD.Brain.XX.O.MR_T1.698.mha	2.31MB
Image_Data/HG/0003/VSD.Brain.XX.O.MR_T1/VSD.Brain.XX.O.MR_T1.698_N4ITK.mha	26.76MB
Image_Data/HG/0003/VSD.Brain.XX.O.MR_T1c/VSD.Brain.XX.O.MR_T1c.699.mha	2.44MB
Image_Data/HG/0003/VSD.Brain.XX.O.MR_T1c/VSD.Brain.XX.O.MR_T1c.699_N4ITK.mha	26.76MB
Image_Data/HG/0003/VSD.Brain.XX.O.MR_T2/VSD.Brain.XX.O.MR_T2.700.mha	2.51MB
Image_Data/HG/0003/VSD.Brain.XX.O.MR_T2/VSD.Brain.XX.O.MR_T2.700_N4ITK.mha	26.76MB
Image_Data/HG/0003/VSD.Brain_3more.XX.XX.OT/VSD.Brain_3more.XX.XX.OT.6564.mha	38.55kB
Image_Data/HG/0003/VSD.Brain_3more.XX.XX.OT/VSD.Brain_3more.XX.XX.OT.6564_N4ITK.mha	26.76MB
Image_Data/HG/0004/VSD.Brain.XX.O.MR_Flair/VSD.Brain.XX.O.MR_Flair.703.mha	1.72MB
Image_Data/HG/0004/VSD.Brain.XX.O.MR_Flair/VSD.Brain.XX.O.MR_Flair.703_N4ITK.mha	24.33MB
Image_Data/HG/0004/VSD.Brain.XX.O.MR_T1/VSD.Brain.XX.O.MR_T1.704.mha	1.64MB
Image_Data/HG/0004/VSD.Brain.XX.O.MR_T1/VSD.Brain.XX.O.MR_T1.704_N4ITK.mha	24.33MB
Image_Data/HG/0004/VSD.Brain.XX.O.MR_T1c/VSD.Brain.XX.O.MR_T1c.705.mha	1.79MB
Image_Data/HG/0004/VSD.Brain.XX.O.MR_T1c/VSD.Brain.XX.O.MR_T1c.705_N4ITK.mha	24.33MB
Image_Data/HG/0004/VSD.Brain.XX.O.MR_T2/VSD.Brain.XX.O.MR_T2.706.mha	1.81MB
Image_Data/HG/0004/VSD.Brain.XX.O.MR_T2/VSD.Brain.XX.O.MR_T2.706_N4ITK.mha	24.33MB
Image_Data/HG/0004/VSD.Brain_3more.XX.XX.OT/VSD.Brain_3more.XX.XX.OT.6566.mha	35.09kB
Image_Data/HG/0004/VSD.Brain_3more.XX.XX.OT/VSD.Brain_3more.XX.XX.OT.6566_N4ITK.mha	24.33MB
Image_Data/HG/0005/VSD.Brain.XX.O.MR_Flair/VSD.Brain.XX.O.MR_Flair.709.mha	2.04MB
Image_Data/HG/0005/VSD.Brain.XX.O.MR_Flair/VSD.Brain.XX.O.MR_Flair.709_N4ITK.mha	24.33MB
Image_Data/HG/0005/VSD.Brain.XX.O.MR_T1/VSD.Brain.XX.O.MR_T1.710.mha	1.99MB
Image_Data/HG/0005/VSD.Brain.XX.O.MR_T1/VSD.Brain.XX.O.MR_T1.710_N4ITK.mha	24.33MB
Image_Data/HG/0005/VSD.Brain.XX.O.MR_T1c/VSD.Brain.XX.O.MR_T1c.711.mha	2.18MB
Image_Data/HG/0005/VSD.Brain.XX.O.MR_T1c/VSD.Brain.XX.O.MR_T1c.711_N4ITK.mha	24.33MB
Image_Data/HG/0005/VSD.Brain.XX.O.MR_T2/VSD.Brain.XX.O.MR_T2.712.mha	2.18MB
Image_Data/HG/0005/VSD.Brain.XX.O.MR_T2/VSD.Brain.XX.O.MR_T2.712_N4ITK.mha	24.33MB
Image_Data/HG/0005/VSD.Brain_3more.XX.XX.OT/VSD.Brain_3more.XX.XX.OT.6568.mha	32.22kB
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Type: Dataset
Tags:

Bibtex:

@article{,
title= {MICCAI 2013 Challenge on Multimodal Brain Tumor Segmentation (BraTS2013)	},
keywords= {},
journal= {},
author= {},
year= {2013},
url= {http://martinos.org/qtim/miccai2013/data.html},
license= {Creative Commons Attribution-NonCommercial 3.0 license},
abstract= {A publicly available set of training data can be downloaded for algorithmic tweaking and tuning from the Virtual Skeleton Database. The training data consists of multi-contrast MR scans of 30 glioma patients (both low-grade and high-grade, and both with and without resection) along with expert annotations for "active tumor" and "edema". For each patient, T1, T2, FLAIR, and post-Gadolinium T1 MR images are available. All volumes were linearly co-registered to the T1 contrast image, skull stripped, and interpolated to 1mm isotropic resolution. No attempt was made to put the individual patients in a common reference space.

 

The MR scans, as well as the corresponding reference segmentations, are distributed in the ITK- and VTK-compatible MetaIO file format. Patients with high- and low-grade gliomas have file names "BRATS_HG" and "BRATS_LG", respectively. All images are stored as signed 16-bit integers, but only positive values are used. The manual segmentations (file names ending in "_truth.mha") have only five intensity levels: 1 for Non-brain, non-tumor, necrosis, cyst, hemorrhage, 2 for Surrounding edema, 3 for Non-enhancing tumor, 4 for enhancing tumor core and 0 for everything else. Detailed technical documentation on the used MetaIO file format is available here.

 

The training data also contains simulated images for 25 high-grade and 25 low-grade glioma subjects. These simulated images closely follow the conventions used for the real data, except that their file names start with "SimBRATS"; they are all in BrainWeb space; and their MR scans and ground truth segmentations are stored using unsigned 16 bit and unsigned 8 bit integers, respectively. Details on the simulation method are available here.

Testing data
A set of independent testing data will be provided on the day of the challenge itself. This testing data will be similar to the training data, except that the reference segmentation will not be made publicly available.



![](https://i.imgur.com/aSB7Y0r.png)},
superseded= {},
terms= {The BRATS training and testing data are made freely available through the Creative Commons Attribution-NonCommercial 3.0 license. Please include the following language in any work using the BRATS data: 

"Brain tumor image data used in this work were obtained from the NCI-MICCAI 2013 Challenge on Multimodal Brain Tumor Segmentation (http://martinos.org/qtim/miccai2013/index.html) organized by K. Farahani, M. Reyes,B. Menze, E. Gerstner, J. Kirby and J. Kalpathy-Cramer . The challenge database contains fully anonymized images from the following institutions: ETH Zurich, University of Bern, University of Debrecen, and University of Utah and publicly available images from the Cancer Imaging Archive (TCIA)."}
}