This repository contains PyTorch implementation for model evaluation of the following paper: SCU-Net: A deep learning method for segmentation and quantification of breast arterial calcifications on mammograms (https://pubmed.ncbi.nlm.nih.gov/34328661/, https://www.medrxiv.org/content/10.1101/2021.07.30.21261406v1.full.pdf).
- First clone the repository
git clone https://github.com/Emory-HITI/BAC_segmentation.git - Create the virtual environment via conda
conda create -n scunet python=3.7 - Activate the virtual environment.
conda activate scunet - Install the dependencies.
pip install --user --requirement requirements.txt
SCUNet_dice_512_512_best_nosigmoid.pt is the model that proposed and evluated in the paper and works the best for 8-bit mammogram images with BAC.
SCUNet_dice_512_512_best.pt is the model that works the best for 16-bit mammogram images with BAC.
SCU_Net_512_512_best_BCE_pos_all.pt is the model that works the best for mammogram images with and without BAC.
To run the model on your own mammogram datasets, run the following commands:
python AutoSeg.py --ckptpath path/to/checkpoint --datapath path/to/mammogram_png/folder --temppath path/to/temp_folder_for_intermediate_results --evalpath path/to/folder_for_saving_csv_results --prob_thre probability_thresholdPlease look into the argument part of AutoSeg.py to learn more details for runnning the code
If you use this repository or would like to refer the paper, please use the following BibTeX entry
@article{guo2021scu,
title={SCU-Net: A deep learning method for segmentation and quantification of breast arterial calcifications on mammograms},
author={Guo, Xiaoyuan and O'Neill, W Charles and Vey, Brianna and Yang, Tianen Christopher and Kim, Thomas J and Ghassemi, Maryzeh and Pan, Ian and Gichoya, Judy Wawira and Trivedi, Hari and Banerjee, Imon},
journal={Medical physics},
volume={48},
number={10},
pages={5851--5861},
year={2021},
publisher={Wiley Online Library}
}