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AbdonmenAtlas 1.0

We are proud to introduce AbdomenAtlas-8K, a substantial multi-organ dataset with the spleen, liver, kidneys, stomach, gallbladder, pancreas, aorta, and IVC annotated in 8,448 CT volumes, totaling 3.2 million CT slices.

An endeavor of such magnitude would demand a staggering 1,600 weeks or roughly 30.8 years of an experienced annotator's time.

In contrast, our annotation method has accomplished this task in three weeks (premised on an 8-hour workday, five days a week) while maintaining a similar or even better annotation quality.

Data - AbdomenAtlas1.0Mini

Option Image & Mask Image-Only Mask-Only
Huggingface All-in-one Download (3.3GB)
A single compressed file containing all labels.
Zips Download (328GB)
11 compressed files in TAR.GZ format.
Download
11 compressed files in TAR.GZ format.
Folders Download (340GB)
5,195 folders, each containing CT, combined labels, and a segmentations folder of nine masks in NII.GZ format.
Download (325GB)
5,195 folders, each containing CT in NII.GZ format.
Download (15GB)
5,195 folders, each containing combined labels, and a segmentations folder of nine masks in NII.GZ format.
Dropbox All-in-one Download (306GB)
A single compressed file containing all images and labels.
Download (303GB)
A single compressed file containing all images.
Download (3.3GB)
A single compressed file containing all labels.
Zips Download (328GB)
11 compressed files in TAR.GZ format.
Download
11 compressed files in TAR.GZ format.
Baidu Wangpan All-in-one Download (306GB)
A single compressed file containing all images and labels.
Download (303GB)
A single compressed file containing all images.
Download (3.3GB)
A single compressed file containing all labels.
Zips Download (328GB)
11 compressed files in TAR.GZ format.
Download
11 compressed files in TAR.GZ format.

Paper

AbdomenAtlas: A Large-Scale, Detailed-Annotated, & Multi-Center Dataset for Efficient Transfer Learning and Open Algorithmic Benchmarking
Wenxuan Li, Chongyu Qu, Xiaoxi Chen, Pedro R. A. S. Bassi, Yijia Shi, Yuxiang Lai, Qian Yu, Huimin Xue, Yixiong Chen, Xiaorui Lin, Yutong Tang, Yining Cao, Haoqi Han, Zheyuan Zhang, Jiawei Liu, Tiezheng Zhang, Yujiu Ma, Jincheng Wang, Guang Zhang, Alan Yuille, Zongwei Zhou*
Johns Hopkins University
Medical Image Analysis, 2024

AbdomenAtlas-8K: Annotating 8,000 CT Volumes for Multi-Organ Segmentation in Three Weeks
Chongyu Qu1, Tiezheng Zhang1, Hualin Qiao2, Jie Liu3, Yucheng Tang4, Alan L. Yuille1, and Zongwei Zhou1,*
1 Johns Hopkins University,
2 Rutgers University,
3 City University of Hong Kong,
4 NVIDIA
NeurIPS 2023
paper | code | dataset | poster

AbdomenAtlas-8K: Human-in-the-Loop Annotating Eight Anatomical Structures for 8,448 Three-Dimensional Computed Tomography Volumes in Three Weeks
Chongyu Qu1, Tiezheng Zhang1, Hualin Qiao2, Jie Liu3, Yucheng Tang4, Alan L. Yuille1, and Zongwei Zhou1,*
1 Johns Hopkins University,
2 Rutgers University,
3 City University of Hong Kong,
4 NVIDIA
RSNA 2023 (Oral Presentation)
paper | code | slides

★ An improved version, AbdomenAtlas 1.1, can be found at SuPreM GitHub stars.

★ Touchstone - Let's benchmark! GitHub stars

★ We have maintained a document for Frequently Asked Questions.

0. Installation

git clone https://github.com/MrGiovanni/AbdomenAtlas

See installation instructions to create an environment and obtain requirements.

1. Download AI models

We offer pre-trained checkpoints of Swin UNETR and U-Net. The models were trained on a combination of 14 publicly available CT datasets, consisting of 3,410 (see details in CLIP-Driven Universal Model). Download the trained models and save them into ./pretrained_checkpoints/.

Architecture Param Download
U-Net 19.08M link
Swin UNETR 62.19M link

2. Prepare your datasets

It can be publicly available datasets (e.g., BTCV) or your private datasets. Currently, we only take data formatted in nii.gz. This repository will help you assign annotations to these datasets, including 25 organs and six types of tumors (where the annotation of eight organs is pretty accurate).

2.1 Download

Taking the BTCV dataset as an example, download this dataset and save it to the datapath directory.

cd $datapath
wget https://www.dropbox.com/s/jnv74utwh99ikus/01_Multi-Atlas_Labeling.tar.gz
tar -xzvf 01_Multi-Atlas_Labeling.tar.gz
2.2 Preprocessing

Generate a list for this dataset.

cd AbdomenAtlas/
python -W ignore generate_datalist.py --data_path $datapath --dataset_name $dataname --folder img --out ./dataset/dataset_list --save_file $dataname.txt

3. Generate masks

U-Net
CUDA_VISIBLE_DEVICES=0 python -W ignore test.py --resume pretrained_checkpoints/unet.pth --backbone unet --save_dir $savepath --dataset_list $dataname --data_root_path $datapath --store_result >> logs/$dataname.unet.txt
Swin UNETR
CUDA_VISIBLE_DEVICES=0 python -W ignore test.py --resume pretrained_checkpoints/swinunetr.pth --backbone swinunetr --save_dir $savepath --dataset_list $dataname --data_root_path $datapath --store_result >> logs/$dataname.swinunetr.txt

To generate attention maps for the active learning process (Step 5 [optional]), remember to save entropy and soft predictions by using the options --store_entropy and --store_soft_pred

4. Data Assembly

In the assembly process, our utmost priority is given to the original annotations supplied by each public dataset. Subsequently, we assign secondary priority to the revised labels from our annotators. The pseudo labels, generated by AI models, are accorded the lowest priority. The following code can implement this priority into the assembled dataset.

python -W ignore assemble.py --data_path $savepath --dataset_name $dataname --backbone swinunetr --save_dir SAVE_DIR --version V1

This is how our AbdonmenAtlas-8K appears

    $savepath/
    ├── $dataname_img0001
    ├── $dataname_img0002
    ├── $dataname_img0003
        │── ct.nii.gz
        ├── original_label.nii.gz
        ├── pseudo_label.nii.gz
        └── segmentations
            ├── spleen.nii.gz
            ├── liver.nii.gz
            ├── pancreas.nii.gz

5. [Optional] Active Learning

If you want to perform the active learning process, you will need the following active learning instructions to generate the attention map for human annotators.

Figure. Illustration of an attention map.

TODO

  • Release pre-trained AI model checkpoints (U-Net and Swin UNETR)
  • Release the AbdomenAtlas-8K dataset (we commit to releasing 3,410 of the 8,448 CT volumes)
  • Support more data formats (e.g., dicom)

Citation

@article{li2024abdomenatlas,
  title={AbdomenAtlas: A large-scale, detailed-annotated, \& multi-center dataset for efficient transfer learning and open algorithmic benchmarking},
  author={Li, Wenxuan and Qu, Chongyu and Chen, Xiaoxi and Bassi, Pedro RAS and Shi, Yijia and Lai, Yuxiang and Yu, Qian and Xue, Huimin and Chen, Yixiong and Lin, Xiaorui and others},
  journal={Medical Image Analysis},
  pages={103285},
  year={2024},
  publisher={Elsevier},
  url={https://github.com/MrGiovanni/AbdomenAtlas}
}

@article{bassi2024touchstone,
  title={Touchstone Benchmark: Are We on the Right Way for Evaluating AI Algorithms for Medical Segmentation?},
  author={Bassi, Pedro RAS and Li, Wenxuan and Tang, Yucheng and Isensee, Fabian and Wang, Zifu and Chen, Jieneng and Chou, Yu-Cheng and Kirchhoff, Yannick and Rokuss, Maximilian and Huang, Ziyan and Ye, Jin and He, Junjun and Wald, Tassilo and Ulrich, Constantin and Baumgartner, Michael and Roy, Saikat and Maier-Hein, Klaus H. and Jaeger, Paul and Ye, Yiwen and Xie, Yutong and Zhang, Jianpeng and Chen, Ziyang and Xia, Yong and Xing, Zhaohu and Zhu, Lei and Sadegheih, Yousef and Bozorgpour, Afshin and Kumari, Pratibha and Azad, Reza and Merhof, Dorit and Shi, Pengcheng and Ma, Ting and Du, Yuxin and Bai, Fan and Huang, Tiejun and Zhao, Bo and Wang, Haonan and Li, Xiaomeng and Gu, Hanxue and Dong, Haoyu and Yang, Jichen and Mazurowski, Maciej A. and Gupta, Saumya and Wu, Linshan and Zhuang, Jiaxin and Chen, Hao and Roth, Holger and Xu, Daguang and Blaschko, Matthew B. and Decherchi, Sergio and Cavalli, Andrea and Yuille, Alan L. and Zhou, Zongwei},
  journal={Conference on Neural Information Processing Systems},
  year={2024},
  utl={https://github.com/MrGiovanni/Touchstone}
}

@article{qu2023abdomenatlas,
  title={Abdomenatlas-8k: Annotating 8,000 CT volumes for multi-organ segmentation in three weeks},
  author={Qu, Chongyu and Zhang, Tiezheng and Qiao, Hualin and Tang, Yucheng and Yuille, Alan L and Zhou, Zongwei and others},
  journal={Advances in Neural Information Processing Systems},
  volume={36},
  year={2023}
}

@inproceedings{li2024well,
  title={How Well Do Supervised Models Transfer to 3D Image Segmentation?},
  author={Li, Wenxuan and Yuille, Alan and Zhou, Zongwei},
  booktitle={The Twelfth International Conference on Learning Representations},
  year={2024}
}

Acknowledgements

This work was supported by the Lustgarten Foundation for Pancreatic Cancer Research and partially by the Patrick J. McGovern Foundation Award. We appreciate the effort of the MONAI Team to provide open-source code for the community.