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The source code of the winning algorithm of the MICCAI Grand Challenge Carotid Artery Vessel Wall Segmentation Challenge

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Carotid segmentation

This repo contains the source code of the winning algorithm of the MICCAI Grand Challenge Carotid Artery Vessel Wall Segmentation Challenge. This algorithm computes the contours of the lumens and walls of the internal and external carotids on both sides of the neck from 3D black-blood MRI.

Documentation can be found on ReadTheDocs.

Illustration of the pipeline

Installation

As the package relies on multiple dependencies, we advise to install it in a separate environment:

conda create -n carotid-segmentation python=3.9
conda activate carotid-segmentation

The package was not published on PyPi (yet), hence the repo must be cloned to install it:

git clone git@github.com:MIAGroupUT/carotid-segmentation.git
cd carotid-segmentation
pip install [-e] ./src

Usage

This package relies on pre-trained deep learning models that are currently stored on SurfDrive.

Getting the models

  • On Mac / Linux:

You can use the following command to fetch all the models:

make get-models
  • On Windows:

Models can be downloaded with this link Unzip the tar file and copy the different folders in the models folder at the root of the repo.

The final architecture of your repo should be the following:

carotid-segmentation
├── models
│       ├── contour_transform
│       ├── contour_transform_dropout
│       └── heatmap_transform
│               ├── <filename1>.pt
│               ├── ....
│               └── <filenameN>.pt
...

Organize your data

The algorithms were trained to segment carotids from 3D black-blood MRI volumes. The raw data can be provided as DICOM, MHD or MHA files.

Structure of the raw directory for DICOM files:

raw_dir
├── <participant1>
│       ├── <filename1>.dcm
│       ...
│       └── <filenameN>.dcm
...
└── <participantN>
        ├── <filename1>.dcm
        ...
        └── <filenameN>.dcm

Structure of the raw directory for MHA/MHD files:

raw_dir
├── <participant1>.mha
...
└── <participantN>.mha

Run the pipeline

You can run the full pipeline using the following command:

carotid pipeline_transform \
    /path/to/raw_dir \
    <repo-path>/models/heatmap_transform \
    <repo-path>/models/contour_transform \
    /path/to/output

Test

The package is tested with the CI of Gitlab. You can also run yourself the tests with pytest. First install the requirements for the tests in your conda environment:

conda activate carotid-segmentation
cd <repo-path>
pip install -r tests/requirements.txt

Then get the data necessary to run the tests.

  • On Mac / Linux:
make prepare-test
  • On Windows:

Download test data using this link. Unzip the downloaded tar file and move the directories in the tests folder. Create a models directory in the tests folder and copy one of each of the model contained in your root models folder (you can also put all the models, but the tests take a longer time).

The final architecture should be the following:

tests
├── centerline_transform
│       ├── input
│       ├── reference
│       ├── test_args.toml
│       └── test_centerline_transform.py
...
├── models
│       ├── contour_transform
│       ├── contour_transform_dropout
│       └── heatmap_transform
...
├── raw_dir
│       ├── 0_P125_U.mha
│       └── parameters.json
...

You can now run the tests with pytest:

pytest tests/

Build docker container

The pipeline can be run on the grand-challenge platform. To update the current docker container and generate a new one from the current version of the code please run:

make build-grand-challenge

To build a lighter docker container (but not adapted to the grand-challenge platform):

make build

Authors and acknowledgment

This algorithm was originally developed by researchers of the team Mathematics of Imaging & AI of the University of Twente and presented in the SPIE Medical Imaging conference in 2022.

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The source code of the winning algorithm of the MICCAI Grand Challenge Carotid Artery Vessel Wall Segmentation Challenge

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