CTSC Ellen Grant, CHB
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Contents
Mission
Use-Case Goals
The use-case can be broken into two distinct steps, including Data Management, and Processing.
- Step 1: Data Management
- Describe and upload retrospective datasets (roughly 1 terabyte) onto the CHB XNAT instance and confirm appropriate organization and naming scheme via web GUI.
- Step 2: Query Formulation
- making specific queries using XNAT web services,
- data download conforming to specific naming convention and directory structure, using XNAT web services
- generating and uploading specific processing results using XNAT web services.
- Step 3: Data Processing Implement & execute the script-driven tractography workflow using web services
Outcome Metrics
Step 1: Data Management
- Visual confirmation (via web GUI) that all data is present and organized appropriately
- Successful tests that responses to XNAT queries for all MRIDs given a protocol name match results returned from currently-used search on the local filesystem.
- Query/Response should be efficient
- other?
Step 2: Data Processing
- Pipeline executes correctly
- Pipeline execution not substantially longer than when all data is housed locally
- other?
Overall
- Local disk space saved?
- Data management more efficient?
- Data management errors reduced?
- Barriers to sharing data lowered?
- Processing time reduced?
- User experience improved?
Fundamental Requirements
- System must be accessible 24/7
- System must be redundant (no data loss)
Participants
- sites involved: MGH NMR center, MGH Radiology, CHB Radiology
- number of users: ~10
- PI: Ellen Grant
- staff: Rudolph Pienaar
- clinicians
- IT staff
Data
Retrospective data consists of ~1787 studies, ~1TB total. Data consists of
- MR data, DICOM format
- Subsequent processsing generates ".trk" files
- ascii text files ".txt"
- files that contain protocol information
Workflows
Current Data Management Process
(schematic to come...)
DICOM raw images are produced at radiology PACS at MGH, and are manually pushed to the PACS hosted on KAOS resided at MGH NMR center. The images are processed by a set of PERL scripts to be renamed and re-organized into a file structure where all images for a study are saved into a directory named for the study.
DICOM images are currently viewed with Osiris on Macs.
Target Data Management Process (Step 1)
Step 1: (schematic to come) It is desired to develop an Image Management System for BDC (IMS4BDC) with which at least the following can be done:
- Move images from MGH (KAOS) to a BDC machine at Children's
- Import legacy data into IMS4BDC from existing file structure and CDs
- Query capabilities:
Show all subjectIDs scanned with protocol_name = ProtocolName Show all diffusion studies where patients ages are < 6
- Scripting capabilities: Scripts need to query and download data into appropriate directory structure, and support appropriate naming scheme to be compatible with existing processing workflow.
- Run processing locally, on cluster, etc.
- Mange post-processed images
- Share images with clinical physicians;
- Export post-processed data back to clinical PACS
Target Processing Workflow (Step 2)
Step 2: (schematic to come)
Other Information
Rudolph has worked with XNAT support group at Harvard.
- 7/25/09 - Rudolph and Wendy are beginning experiments to upload representative data and metadata to CHB's XNAT instance.