Diffusion MRI
Diffusion-weighted magnetic resonance imaging (DW-MRI) is a radiological technique that measures water diffusion in living tissue in order to infer microstructural details of fibrous textured tissues like brain white matter. The information that comes from a DW-MRI scan sequence generally requires extensive processing before it is useful for brain scientists --- see the article on diffusion MRI techniques for more details. Our research group collaborates with scientists around the world to help make medical discoveries while developing novel techniques to process, quantify, and visualize diffusion MRI data.
You may also want to check the diffusion MRI glossary page to learn some jargon, or the brain anatomy page.
Neuroscience Collaborations
The following is a table of all the projects on which we're collaborating, the data we've received from our collaborators, information about the data, and our progress in processing them.
Entries in the "Dataset Date Received" column may include a "[more]" link. This drops down more detail, including the path to the data and additional notes. Relative paths start at the directory /data/graphics/mri/.
In the "Status" column, the rule of thumb is to only mark a particular stage completed if it's completed for all scans (usually corresponding to patients) in the dataset. Sometimes a step will be marked complete if it's known to work for all scans but has not been completed on a minority of them, but this practice is discouraged.
In the "Resolution" and "Voxel Size" columns, dimensions are ordered XxYxZ.
In the "Orientation" columns, "L" stands for "patient's left". "R" stands for "patient's right". "A" stands for "anterior" (front), "P" for "posterior" (back), "I" for "inferior" (bottom), and "S" for "superior" (top). See the wikipedia page on anatomical coordinate systems for more information. The default orientation in the table below is "RL", "AP", and "IS"; if they are in the opposite order it indicates a direction flip.
Note that this "default orientation" is non-standard; NIfTI, Talairach, and MNI coordinate systems all specify that X increases L-to-R; Y, P-to-A; and Z, I-to-S. The default orientation is still a right-handed coordinate system (thank goodness), but it's a little wonky and may cause problems with certain software. Check out the NIfTI FAQ on orientation and Graham Wideman's helpful tutorial for more information. There's the chance that all of the orientation tags in this table have systematic errors, so a wholesale review of them might be worthwhile at some point. For the time being, take them with a grain of salt and double-check if it's important.
Collaboration Table
| Project | Location | Collaborators | Dataset Date Received | Status | Scanner | Format | # Scans | Resolution (voxels) | # DWIs | Voxel Size (mm) | DWI Orientation | bvec Orientation | ||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| C | U | D | F | M | F | T | B | F | B | -X | +X | -Y | +Y | -Z | +Z | -X | +X | -Y | +Y | -Z | +Z | |||||||||
| Cognitive Aging | St. Louis | Rob Paul (UMSL), Tom Conturo (WUSTL) |
2008-07-20
|
Y | Y | Y | Y | Y | Y | Y | Y | ? | ? | Analyze .img + Interfile .ifh header | 1 | 83x110x64 | 36 | 2.0x2.0x2.0 | R | L | P | A | I | S | R | L | A | P | I | S |
2010-07-09
|
Y | N | N | N | N | N | N | N | ? | ? | Analyze .hdr/.img + Interfile .ifh header (supplementary) | 81 | 83x110x64 | 64 for d1 scans; 72 for d2 scans | 2.0x2.0x2.0 | R | L | P | A | I | S | R | L | A | P | I | S | |||
| Fibers at Risk | Colorado | Jack Simon | 2008-08-28
|
Y | Y | N | N | N | N | N | N | 1.5T | ? | ? | ? | ? | ? | ? | ? | ? | ||||||||||
| Portland | Jack Simon (VA), Bill Rooney (OHSU AIRC) |
7T | GE | |||||||||||||||||||||||||||
| HIV | Memorial Hospital | Steve Correia, Ron Cohen |
? | Y | Y | Y | N | N | N | N | N | 1.5T | Siemens | DICOM | ? | 256x256x90 | ? | 0.8477x0.8477x1.667 | ? | ? | ||||||||||
| Brown Life Sci | 2007-11-30
|
Y | Y | Y | Y | Y | N | N | N | 3T | Siemens | DICOM | 1 | 256x256x180 | 74 | .8828x.8828x.7 | ? | ? | ||||||||||||
2008-07-21
|
Y | Y | Y | Y | Y | Y | Y | Y | NIfTI | 13 | 128x128x70 | 74 | 1.76562x1.76562x1.8 | ? | ? | |||||||||||||||
2008-10-09
|
Y | Y | Y | Y | Y | Y | Y | Y | NIfTI | 8 | 128x128x70 | 74 | 1.76562x1.76562x1.8 | R | L | A | P | I | S | L | R | A | P | I | S | |||||
| Kids | Hasbro / Coro | Daniel Dickstein | 2010-01-13
|
Y | Y | Y | Y | N | N | N | N | ? | ? | NIfTI | 4 | 128x128x70 | 65 | 1.765625x1.765625x1.8 | R | L | A | P | I | S | R | L | A | P | I | S |
| Macaque | Brown | John Donoghue, Kaivon Paroo | 2010-02-09
|
Y | Y | Y | Y | N | N | N | N | 3T | Siemens | DICOM | ? | ? | ? | ? | ? | ? | ||||||||||
| Macaque Histology | Caltech | Jason Kaufman | 2008-05-21
|
Y | Y | Y | Y | Y | Y | Y | Y | ? | Bruker | Analyze | 1 | 98x110x130 | 36 | 0.6x0.6x0.6 | ? | ? | ||||||||||
| SA HIV | Cape Town | Rob Paul (PI), Bruce Spottiswoode, Paul Carey, John Joska | 2007-10-22
|
Y | Y | Y | Y | Y | Y | Y | Y | ? | Siemens | DICOM Mosaic | 1 | 127x128x70 | 40 | 1.71875x1.71875x1.7 | ? | ? | ||||||||||
2008-05-09
|
Y | Y | Y | Y | N | N | N | N | ? | Siemens | DICOM Mosaic | 3 | 127x127x75 | 66 | 1.71875x1.71875x1.7 | ? | ? | |||||||||||||
2008-07-24
|
Y | Y | Y | Y | Y | Y | Y | Y | ? | Siemens | 4-D NIfTI | 15 | 128x128x75 | 65
|
1.875x1.875x1.9 | R | L | A | P | I | S | R | L | A | P | I | S | |||
2009-11-27
|
N | N | N | N | N | N | N | N | ? | ? | DICOM Mosaic | 30 | 128x128x70 | 33 | 1.71875x1.71875x1.7 | ? | ? | |||||||||||||
| Tumors | Edinburgh | Mark Bastin | 2007-11-06
|
Y | Y | Y | Y | N | N | N | N | 1.5T | GE | DICOM tarball | 1 | 128x128x72 | 71 | 2.0x2.0x2.0 | ? | ? | ||||||||||
2008-07-24
|
Y | Y | Y | Y | Y | ~ | ~ | ~ | 1.5T | GE | DICOM tarball | 29
|
128x128x72 | 71 | 2.0x2.0x2.0 | R | L | A | P | I | S | R | L | P | A | I | S | |||
2009-11-23
|
Y | Y | Y | Y | ~ | ~ | ~ | ~ | 1.5T | GE | DICOM tarball | 17 | 128x128x72 | 71 | 2.0x2.0x2.0 | R | L | A | P | I | S | R | L | P | A | I | S | |||
2009-12-21
|
Y | Y | Y | Y | N | N | N | N | 1.5T | GE | DICOM tarball | 36 | 128x128x72 | 71 | 2.0x2.0x2.0 | R | L | A | P | I | S | R | L | P | A | I | S | |||
Brown Protocol Compatibility Study
The 3T scanner at Brown has changed its configuration several times, necessitating a study to determine whether data from these different configurations are compatible. Please see the page /Brown Protocol Compatibility Study for details.
Software
The principal pieces of software we use for research now are:
- Diffusion Processing Pipeline --- a series of small programs that turns data we get from collaborators into tensor models, scalar measures, tractograms, etc.
- Brainapp --- a GUI program for viewing tractograms and computing scalar statistics on them.
$G/bin/mriatlas--- generates a PDF of slices of MRIimage files.- Diffusion MRI Matlab Scripts --- Matlab scripts to read, write, view, and manipulate MRI data (especially in MRIimage format)
You may also be interested in the exhaustive list of diffusion MRI software we've developed in-house, or that of 3rd-party software.
File Formats
| Format | Extension |
|---|---|
| DICOM | .ima; .dcm |
| Analyze | .hdr / .img |
| NIfTI | .nii; .nii.gz; .hdr / .img |
| Interfile | .ifh / .img; .i33 / .h33 |
| MRIimage | none |
HOWTOs
- Set up your environment for diffusion MRI processing
- Run the diffusion processing pipeline at low resolution
- Diagnose tensor orientation problems
- Compute apparent diffusion coefficient
See Also
- Introductory Reading List --- a minimal guide of good references for understanding the background of this project
- Diffusion Processing Pipeline --- a series of small programs that turns data we get from collaborators into tensor models, scalar measures, tractograms, etc.
- Brainapp --- a GUI program for viewing tractograms and computing scalar statistics on them.
- Diffusion MRI Matlab Scripts --- Matlab scripts to read, write, view, and manipulate MRI data (especially in MRIimage format)
- Diffusion MRI techniques --- technical information about the diffusion MRI process
- Brain anatomy
- Diffusion MRI glossary
- Work With Histology Data
- Diffusion MRI Design Notes
- Brain Networks
- Neuroimaging Systems