Diffusion MRI using Deep Learning
MoDL-MUSSELS: Model-Based Deep Learning for Multi-Shot Sensitivity Encoded Diffusion MRI by H.K. Aggarwal, Marry Mani, Mathews Jacob in IEEE Transactions on Medical Imaging, 39(4), Apr 2020.
PDF Link: https://arxiv.org/abs/1812.08115
IEEE Xplore: https://ieeexplore.ieee.org/document/8863423
This code can reconstruct multi-shot diffuion MR images. This code will reduce the phase-artifacts from the multi-shot diffusion data. In the above paper, we propose a technique to combine the power of deep-learning with the model-based approaches. This code utilizes deep learning to accelerate MUSSELS algorithm ( https://doi.org/10.1002/mrm.28090) which is based on structured low rank technique.
We have tested the code in Anaconda python 3.7 with Tensorflow-1.15.
The training code requires tqdm
library. It is a nice library that is helpful in tracking the training progress.
It can be installed using:
conda install tqdm
In addition, matplotlib is required to visualize the output images.
This git repository includes test data in the file test_data.npz
. The testing script tst.py
will use this image by default and does not require full data download for the testing purpose.
We have release a subset of the dataset, used in the paper, for the training code demo. You can download this data from the below link.
Download Link : https://drive.google.com/open?id=10Blm-wX8ofyqLQ6w1qFcm7P-j5vcus6-
You will need this file diffusion_mri_dataset.npz
(320 MB) to run the training code trn.py
. You can download the dataset from the link provided above. You do not need to download the diffusion_mri_dataset.npz
for testing purpose.
You will find the dataset acquisition details in the PDF of the paper (link given above).
trnOrg
: This is complex arrary of 50x4x256x256 containing 50 directions from different subjects and slices for the training purpose. Each direction has 4-shots of size 256x256. These are the MUSSELS reconstructions treated as ground truth.
trnCsm
: This is a complex array of 50x4x256x256 representing coil sensitity maps (csm). Here 4 represent number of coils after coil compression. Please note that original rawdata had 32 coils. The code MoDL-MUSSELS can be trained with 4 coils and later tested with 32 coils as well.
trnMask
: This is a 4-shot undersampling mask.
tstOrg
,tstCSM
, tstMask
: These are similar arrays for testing purpose.
First, ensure that Tensorflow 1.15 is installed and working with GPU. The code may work with other versions of the TensorFlow as well. But we did our testings with version 1.15.
Second, just clone or download this reporsitory. The tst.py
file should run without any changes in the code.
On the command prompt cd
to this cloned modl-mussels
directory i.e. the directory containig tst.py
.
Then you can run the test code using the command:
$python tst.py
from the command prompt. This will load the pre-trained model from the directory trained-model
.
The folder trained-model
contain the learned tensorflow model parameters. tst.py
will use it to read the model and run on the demo image in the file test_data.npz
.
misc.py
: This file contain some supporting functions.
model.py
: This file contain the code for creating the MoDL-MUSSELS architecture. Please note that it has a conjugate-gradient code that will run simultaneously on all 4-shots on GPU on complex data.
trn.py
: This is the training code.
tst.py
: This is the testing code.
The code is provided to support reproducible research. If the code is giving syntax error in your particular python configuration or some files are missing then you may open an issue or directly email me at [email protected].