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--- |
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license: cc0-1.0 |
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task_categories: |
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- image-classification |
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- image-segmentation |
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tags: |
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- medical |
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pretty_name: M-SYNTH |
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size_categories: |
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- 10K<n<100K |
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--- |
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# M-SYNTH |
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<!-- Provide a quick summary of the dataset. --> |
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M-SYNTH is a synthetic digital mammography (DM) dataset with four breast fibroglandular density distributions imaged using Monte Carlo x-ray simulations with the publicly available [Virtual Imaging Clinical Trial for Regulatory Evaluation (VICTRE)](https://github.com/DIDSR/VICTRE) toolkit. |
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## Dataset Details |
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The dataset has the following characteristics: |
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* Breast density: dense, heterogeneously dense, scattered, fatty |
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* Mass radius (mm): 5.00, 7.00, 9.00 |
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* Mass density: 1.0, 1.06, 1.1 (ratio of radiodensity of the mass to that of fibroglandular tissue) |
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* Relative dose: 20%, 40%, 60%, 80%, 100% of the clinically recommended dose for each density |
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<p align="center"> |
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<img src='https://raw.githubusercontent.com/DIDSR/msynth-release/main/images/examples.png' width='700'> |
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</p> |
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### Dataset Description |
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<!-- Provide a longer summary of what this dataset is. --> |
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- **Curated by:** [Elena Sizikova](https://esizikova.github.io/), [Niloufar Saharkhiz](https://www.linkedin.com/in/niloufar-saharkhiz/), [Diksha Sharma](https://www.linkedin.com/in/diksha-sharma-6059977/), [Miguel Lago](https://www.linkedin.com/in/milaan/), [Berkman Sahiner](https://www.linkedin.com/in/berkman-sahiner-6aa9a919/), [Jana Gut Delfino](https://www.linkedin.com/in/janadelfino/), [Aldo Badano](https://www.linkedin.com/in/aldobadano/) |
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- **License:** Creative Commons 1.0 Universal License (CC0) |
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### Dataset Sources |
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<!-- Provide the basic links for the dataset. --> |
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- **Code:** [https://github.com/DIDSR/msynth-release](https://github.com/DIDSR/msynth-release) |
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- **Paper:** [https://arxiv.org/pdf/2310.18494.pdf](https://arxiv.org/pdf/2310.18494.pdf) |
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- **Demo:** [https://github.com/DIDSR/msynth-release/tree/master/examples](https://github.com/DIDSR/msynth-release/tree/master/examples) |
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## Uses |
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<!-- Address questions around how the dataset is intended to be used. --> |
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M-SYNTH is intended to facilitate testing of AI with pre-computed synthetic mammography data. |
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### Direct Use |
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<!-- This section describes suitable use cases for the dataset. --> |
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M-SYNTH can be used to evaluate the effect of mass size and density, breast density, and dose on AI performance in lesion detection. |
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M-SYNTH can be used to either train or test pre-trained AI models. |
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### Out-of-Scope Use |
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<!-- This section addresses misuse, malicious use, and uses that the dataset will not work well for. --> |
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M-SYNTH cannot be used in lieu of real patient examples to make performance determinations. |
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## Dataset Structure |
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<!-- This section provides a description of the dataset fields, and additional information about the dataset structure such as criteria used to create the splits, relationships between data points, etc. --> |
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M-SYNTH is organized into a directory structure that indicates the parameters. The folder |
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``` |
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device_data_VICTREPhantoms_spic_[LESION_DENSITY]/[DOSE]/[BREAST_DENSITY]/2/[LESION_SIZE]/SIM/P2_[LESION_SIZE]_[BREAST_DENSITY].8337609.[PHANTOM_FILE_ID]/[PHANTOM_FILEID]/ |
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``` |
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contains image files imaged with the specified parameters. Note that only examples with odd PHANTOM_FILEID contain lesions, others do not. |
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``` |
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$ tree data/device_data_VICTREPhantoms_spic_1.0/1.02e10/hetero/2/5.0/SIM/P2_5.0_hetero.8337609.1/1/ |
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data/device_data_VICTREPhantoms_spic_1.0/1.02e10/hetero/2/5.0/SIM/P2_5.0_hetero.8337609.1/1/ |
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βββ DICOM_dm |
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βΒ Β βββ 000.dcm |
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βββ projection_DM1.loc |
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βββ projection_DM1.mhd |
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βββ projection_DM1.raw |
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``` |
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Each folder contains mammogram data that can be read from .raw format (.mhd contains supporting data), or DICOM (.dcm) format. |
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Coordinates of lesions can be found in .loc files. Segmentations are stored in .raw format and can be found in data/segmentation_masks/* . |
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See [Github](https://github.com/DIDSR/msynth-release/tree/main/code) for examples of how to access the files, and [examples](https://github.com/DIDSR/msynth-release/tree/main/examples) for code to load each type of file. |
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## Bias, Risks, and Limitations |
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<!-- This section is meant to convey both technical and sociotechnical limitations. --> |
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Simulation-based testing is constrained to the parameter variability represented in the object model and the acquisition system. |
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There is a risk of misjudging model performance if the simulated examples do not capture the variability in real patients. Please |
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see the paper for a full discussion of biases, risks, and limitations. |
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## How to use it |
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The msynth dataset is a very large dataset so for most use cases it is recommended to make use of the streaming API of `datasets`. |
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The msynth dataset has three configurations: 1) device_data, 2) segmentation_mask, and 3) metadata |
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You can load and iterate through the dataset using the configurations with the following lines of code: |
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```python |
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from datasets import load_dataset |
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ds = load_dataset("didsr/msynth", 'device_data') # For device data for all breast density, mass redius, mass density, and relative dose, change configuration to 'segmentation_mask' and 'metadata' to load the segmentation masks and bound information |
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print(ds_data["device_data"]) |
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# A sample data instance |
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{'Raw': '~\\.cache\\huggingface\\datasets\\downloads\\extracted\\59384cf05fc44e8c0cb23bb19e1fcd8f0c39720b282109d204a85561fe66bdb1\\SIM\\P2_5.0_fatty.8336179.1\\1\\projection_DM1.raw', |
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'mhd': '~/.cache/huggingface/datasets/downloads/extracted/59384cf05fc44e8c0cb23bb19e1fcd8f0c39720b282109d204a85561fe66bdb1/SIM/P2_5.0_fatty.8336179.1/1\\projection_DM1.mhd', |
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'loc': '~/.cache/huggingface/datasets/downloads/extracted/59384cf05fc44e8c0cb23bb19e1fcd8f0c39720b282109d204a85561fe66bdb1/SIM/P2_5.0_fatty.8336179.1/1\\projection_DM1.loc', |
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'dcm': '~/.cache/huggingface/datasets/downloads/extracted/59384cf05fc44e8c0cb23bb19e1fcd8f0c39720b282109d204a85561fe66bdb1/SIM/P2_5.0_fatty.8336179.1/1\\DICOM_dm\\000.dcm', |
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'density': 'fatty', |
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'mass_radius': 5.0} |
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``` |
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Msynth dataset can also be loaded using custom breast density, mass redius, mass density, and relative dose information |
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```python |
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from datasets import load_dataset |
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# Dataset properties. change to 'all' to include all the values of breast density, mass redius, mass density, and relative dose information |
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config_kwargs = { |
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"lesion_density": ["1.0"], |
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"dose": ["20%"], |
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"density": ["fatty"], |
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"size": ["5.0"] |
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} |
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# Loading device data |
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ds_data = load_dataset("didsr/msynth", 'device_data', **config_kwargs) |
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# Loading segmentation-mask |
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ds_seg = load_dataset("didsr/msynth", 'segmentation_mask', **config_kwargs) |
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``` |
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The meta data can also be loaded using the datasets API. An example of using metadata is given in **Demo:** [https://github.com/DIDSR/msynth-release/tree/master/examples](https://github.com/DIDSR/msynth-release/tree/master/examples) |
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```python |
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from datasets import load_dataset |
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# Loading metadata |
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ds_meta = load_dataset("didsr/msynth", 'metadata') |
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# A sample data instance |
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ds_meta['metadata'][0] |
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# Output |
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{'fatty': '~\\.cache\\huggingface\\datasets\\downloads\\extracted\\3ea85fc6b3fcc253ac8550b5d1b21db406ca9a59ea125ff8fc63d9b754c88348\\bounds\\bounds_fatty.npy', |
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'dense': '~\\.cache\\huggingface\\datasets\\downloads\\extracted\\3ea85fc6b3fcc253ac8550b5d1b21db406ca9a59ea125ff8fc63d9b754c88348\\bounds\\bounds_dense.npy', |
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'hetero': '~\\.cache\\huggingface\\datasets\\downloads\\extracted\\3ea85fc6b3fcc253ac8550b5d1b21db406ca9a59ea125ff8fc63d9b754c88348\\bounds\\bounds_hetero.npy', |
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'scattered': '~\\.cache\\huggingface\\datasets\\downloads\\extracted\\3ea85fc6b3fcc253ac8550b5d1b21db406ca9a59ea125ff8fc63d9b754c88348\\bounds\\bounds_scattered.npy'} |
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``` |
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## Citation |
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``` |
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@article{sizikova2023knowledge, |
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title={Knowledge-based in silico models and dataset for the comparative evaluation of mammography AI for a range of breast characteristics, lesion conspicuities and doses}, |
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author={Sizikova, Elena and Saharkhiz, Niloufar and Sharma, Diksha and Lago, Miguel and Sahiner, Berkman and Delfino, Jana G. and Badano, Aldo}, |
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journal={Advances in Neural Information Processing Systems}, |
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volume={}, |
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pages={}, |
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year={2023} |
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} |
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``` |
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## Related Links |
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1. [Virtual Imaging Clinical Trial for Regulatory Evaluation (VICTRE)](https://www.fda.gov/medical-devices/science-and-research-medical-devices/victre-silico-breast-imaging-pipeline). |
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2. [FDA Catalog of Regulatory Science Tools to Help Assess New Medical Devices](https://www.fda.gov/medical-devices/science-and-research-medical-devices/catalog-regulatory-science-tools-help-assess-new-medical-devices). |
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3. A. Badano, C. G. Graff, A. Badal, D. Sharma, R. Zeng, F. W. Samuelson, S. Glick, K. J. Myers. [Evaluation of Digital Breast Tomosynthesis as Replacement of Full-Field Digital Mammography Using an In Silico Imaging Trial](http://dx.doi.org/10.1001/jamanetworkopen.2018.5474). JAMA Network Open 2018. |
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4. A. Badano, M. Lago, E. Sizikova, J. G. Delfino, S. Guan, M. A. Anastasio, B. Sahiner. [The stochastic digital human is now enrolling for in silico imaging trialsβmethods and tools for generating digital cohorts.](http://dx.doi.org/10.1088/2516-1091/ad04c0) Progress in Biomedical Engineering 2023. |
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5. E. Sizikova, N. Saharkhiz, D. Sharma, M. Lago, B. Sahiner, J. G. Delfino, A. Badano. [Knowledge-based in silico models and dataset for the comparative evaluation of mammography AI](https://github.com/DIDSR/msynth-release). NeurIPS 2023 Workshop on Synthetic Data Generation with Generative AI. |
