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Localtab Group


Localtab
activetrue
titleData Access

Data Access

Click the  Download  button to save a ".tcia" manifest file to your computer, which you must open with the NBIA Data RetrieverClick the  Search  button to open our Data Portal, where you can browse the data collection and/or download a subset of its contents.

Data TypeDownload all or Query/Filter

Images (DICOM, 86.9 GB)

CT, MR

Tcia button generator
urlhttps://wiki.cancerimagingarchive.net/download/attachments/50135264/ACRIN-DSC-MR-Brain%20NBIA-manifest.tcia?api=v2

Tcia button generator
labelSearch
urlhttps://nbia.cancerimagingarchive.net/nbia-search/?MinNumberOfStudiesCriteria=1&CollectionCriteria=ACRIN-DSC-MR-Brain

(Download requires NBIA Data Retriever App)

Clinical (XLS)

Tcia button generator
urlhttps://app.box.com/s/8prceftexo75oa53du7yym6teuwb0im9

Two sets of XLS spreadsheets (ACRIN-DSC-MR-Brain TCIA Anonymized and ACRIN-DSC-MR-Brain-HB TCIA Anonymized) are needed in order to obtain the entire clinical data set for this collection. The file sets are a random sample of ACRIN 6677 participants divided into 2 groups. Group 1/ACRIN-DSC-MR-Brain TCIA Anonymized: a 75% random sample; Group 2/ACRIN-DSC-MR-Brain-HB TCIA Anonymized: a 25% random sample initially held for testing/validating algorithms trained on the 75% sample.  Both are available via the clinical download button.

Click the Versions tab for more info about data releases.


Localtab
titleDetailed Description

Detailed Description

Collection Statistics


Modalities

MR, CT

Number of Participants

123

Number of Studies

566

Number of Series

7629

Number of Images

717,070

Image Size (GB)86.9


Study Accrual:

Of the 123 patients enrolled on the study, 107 had baseline and at least 1 post-treatment MRI and were evaluable for the primary aims.

Imaging Protocol:

The MR imaging protocol is divided into two sections: Standard and Advanced. The Standard protocol acquires a pre-contrast T1-weighted, a T2-weighted, a FLAIR and a diffusion-weighted imaging series all in the axial plane. After intravenous injection of 0.1 mmol/kg of standard gadolinium-based agent, axial 2D spin-echo (2D-T1) and 3D volumetric (3D-T1) T1-weighted (post-Gd) images were acquired.

The advanced scheme acquires the following series: a T1 mapping sequence with flip angles at 2°, 5°, 10°, 15°, 25°, a dynamic contrast-enhanced T1, a dynamic susceptibility contrast diffusion weighted series and/or a MR spectroscopy 2D CSI PRESS sequence.

Image Analysis:

Two central neuroradiologists serially measured bi-dimensional (2D) and volumetric (3D) enhancement on post-contrast T1-weighted images and volume of FLAIR hyperintensity on 107 evaluable patients. For the MR spectroscopy analysis, 13 patients who had baseline and subsequent MRS were analyzed. Spectra from the enhancing tumor and peri-tumoral regions were defined on the post-contrast T1-weighted images. Changes in the concentration ratios of n-acetylaspartate/creatine (NAA/Cr), choline-containing compounds (Cho)/Cr, and NAA/Cho were quantified in comparison with pretreatment values.

Outcomes:

Outcome, like progression status, on all post-treatment MRIs was determined using Macdonald and RANO imaging threshold criteria, with a third neuroradiologist adjudicating discrepancies of both progression occurrence and timing. For each MRI pulse sequence, Kaplan-Meier survival estimates and log-rank test were used to compare OS between cases with or without radiologic progression. Results indicated that early progression on 2D-T1 and 3D-T1, but not FLAIR MRI, after 8 and 16 weeks of anti-vascular endothelial growth factor therapy has highly significant prognostic value for OS in recurrent GBM. For MR spectroscopy, NAA/Cho levels increased and Cho/Cr levels decreased within enhancing tumor at 2 weeks relative to pretreatment levels. Decreased Cho/Cr and increased NAA/Cr and NAA/Cho in tumor periphery at 16 weeks posttreatment were associated with both 6-month progression-free survival and 1-year survival.

Date Offsets:

All dates, like the visit date, are protected by presenting just the year; however, dates are also listed as offset days from the base date. The offset dates are used as a means of protecting patient information provided by the local sites in the original data, while allowing users to determine intervals between events. The standard DICOM date tags (i.e. birth dates, imaging study dates, etc.) have been de-identified so that all patients have a baseline study date of January 1, 1960.  This falsified date represents the day patients were entered into trial database. The number of days between a subject’s longitudinal imaging studies are accurately preserved.  A patient with a study performed on January 4, 1960 means the images were collected 3 days after the base date.  For convenience, this calculation has been performed for all scans with the results inserted in DICOM tag (0012,0050) Clinical Trial Time Point ID.  This means an imaging study that took place on January 4, 1960 would contain a value of "3" in tag (0012,0050). 

Schema

Please refer to the imaging protocol for the definitions of standard (Std) and advanced (Adv) MR imaging.  Assessment of progression was determined by Macdonald and RANO criteria.

Overview of Clinical Data

The basic data flow for legacy ACRIN multi-center clinical trials was that all clinical information provided by the local imaging sites were contained in a series of forms.  The form data submitted by local investigators to ACRIN during and after the trial, were manually encoded into the ACRIN CTMS (Clinical Trial Management System), and were cross-checked for accuracy by ECOG-ACRIN personnel. These ACRIN 6677 forms (see the ACRIN 6677 Data Forms page), filled out by the local sites, deliver information on imaging, clinical management of the patient and pathology/outcome variables, like dates of progression and survival, along with other critical information.  The image data was initially anonymized while uploading from the local sites through TRIAD software and archived in a DICOM database at ACRIN.

After the trial accrual had ended, the clinical data was sent to the Brown statistical center, that is funded by NCI to provide support for ECOG-ACRIN clinical trials, specifically for analysis of the primary and sometimes secondary aims of the trial. The statisticians at Brown strip all the actual dates, names and other PHI from the CTMS data and create a .csv file for each form that has selected information useful for analysis of the trial data.  A Form Description file detailing all the forms used in the study accompanies the .csv data files.  Additionally, the accompanying Data Dictionary file lists each element for each form that has been selected for data retention along with a description of each form element.

Extracting clinical (non-imaging) data example:

Beginning with the Form Description.csv file, select the form with the desired information needed, such as form A0.csv the patient Eligibility/Registration form. Next, using the Data Dictionary.csv file, find the form elements listed for A0 (eg., A0exx, where xx is the form element number). The file lists the form number, variable name, its description or label, the type of data, and, when applicable, the option codes and corresponding text values (option code:description pairs like 1=’No’, 2=’Yes’; or 1=’Baseline’, 2=’Post treatment’) for each data element available from the form.  In the example in Figure 2, the A0 form element 31d (A0e31d) reports the days between the base date and the day of surgery for the patient.  In the corresponding A0.csv file column G lists the days between the base date and surgery for each patient. 

 

In this example of extracting clinical data, the first step is to 1) find the form from the form list, 2) Find the desired element and description in the Data Dictionary and finally 3) extract the values from the .csv data file.

The procedure above is basically how the statisticians organized the selected data for export, but the structure of the data dictionaries and individual forms are different for each clinical trial. 


Localtab
titleCitations & Data Usage Policy

Citations & Data Usage Policy 

Tcia license 4 international

Info
titleData Citation

Kinahan, P., Muzi, M., Bialecki, B., Herman, B., & Coombs, L. (2019). Data from ACRIN-DSC-MR-Brain [Data set]. The Cancer Imaging Archive. DOI: https://doi.org/10.7937/tcia.2019.zr1pjf4i.


Info
titlePublication Citation

Boxerman JL, Zhang Z, Safriel Y, Larvie M, Snyder BS, Jain R, Chi TL, Sorensen AG, Gilbert MR, Barboriak DP. (2013) Early post-bevacizumab progression on contrast-enhanced MRI as a prognostic marker for overall survival in recurrent glioblastoma: results from the ACRIN 6677/RTOG 0625 Central Reader Study. Neuro Oncol. 15:945-954. DOI: 10.1093/neuonc/not049.


Info
titleTCIA Citation

Clark K, Vendt B, Smith K, Freymann J, Kirby J, Koppel P, Moore S, Phillips S, Maffitt D, Pringle M, Tarbox L, Prior F.  (2013) The Cancer Imaging Archive (TCIA): Maintaining and Operating a Public Information Repository, Journal of Digital Imaging, Volume 26, Number 6, pp 1045-1057. DOI: 10.1007/s10278-013-9622-7

Other Publications Using This Data

TCIA maintains a list of publications which leverage our data. If you have a publication you'd like to add please contact the TCIA Helpdesk.


Localtab
titleVersions

Version 1 (Current): Updated 2019/02/07

Data TypeDownload all or Query/Filter

Images (DICOM, 86.9 GB)

CT, MR

Tcia button generator
urlhttps://wiki.cancerimagingarchive.net/download/attachments/50135264/ACRIN-DSC-MR-Brain%20NBIA-manifest.tcia?api=v2

Tcia button generator
labelSearch
urlhttps://nbia.cancerimagingarchive.net/nbia-search/?MinNumberOfStudiesCriteria=1&CollectionCriteria=ACRIN-DSC-MR-Brain

 (Download requires NBIA Data Retriever App)

Clinical (XLS)

Tcia button generator
urlhttps://app.box.com/s/8prceftexo75oa53du7yym6teuwb0im9

Two sets of XLS spreadsheets (ACRIN-DSC-MR-Brain TCIA Anonymized and ACRIN-DSC-MR-Brain-HB TCIA Anonymized) are needed in order to obtain the entire clinical data set for this collection. The file sets are a random sample of ACRIN 6677 participants divided into 2 groups. Group 1/ACRIN-DSC-MR-Brain TCIA Anonymized: a 75% random sample; Group 2/ACRIN-DSC-MR-Brain-HB TCIA Anonymized: a 25% random sample initially held for testing/validating algorithms trained on the 75% sample.  Both are available via the clinical download button.


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