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---
title: RetinaGAN
emoji: 😻
colorFrom: gray
colorTo: red
sdk: streamlit
sdk_version: 1.19.0
app_file: app.py
pinned: false
license: mit
---
# RetinaGAN
Code Repository for: [**High-Fidelity Diabetic Retina Fundus Image Synthesis from Freestyle Lesion Maps**](https://opg.optica.org/abstract.cfm?uri=boe-14-2-533)
## About
RetinaGAN a two-step process for generating photo-realistic retinal Fundus images based on artificially generated or free-hand drawn semantic lesion maps.
![](assets/RetinaGAN_pipeline.png)
StyleGAN is modified to be conditional in to synthesize pathological lesion maps based on a specified DR grade (i.e., grades 0 to 4). The DR Grades are defined by the International Clinical Diabetic Retinopathy (ICDR) disease severity scale; no apparent retinopathy, {mild, moderate, severe} Non-Proliferative Diabetic Retinopathy (NPDR), and Proliferative Diabetic Retinopathy (PDR). The output of the network is a binary image with seven channels instead of class colors to avoid ambiguity.
![](assets/cStyleGAN.png)
The generated label maps are then passed through SPADE, an image-to-image translation network, to turn them into photo-realistic retina fundus images. The input to the network are one-hot encoded labels.
![](assets/GauGAN.png)
## Usage
Download model checkpoints (see [here](checkpoints/README.md) for details) and run the model via Streamlit. Start the app via `streamlit run web_demo.py`.
## Example Images
Example retina Fundus images synthesised from Conditional StyleGAN generated lesion maps. Top row: synthetically generated lesion maps based on DR grade by Conditional StyleGAN. Other rows: synthetic Fundus images generated by SPADE. Images are generated sequentially with random seed and are **not** cherry picked.
| grade 0 | grade 1 | grade 2 | grade 3 | grade 4 |
|--------------------------------------------------------------|--------------------------------------------------------------|--------------------------------------------------------------|--------------------------------------------------------------|--------------------------------------------------------------|
| ![](assets/sample_images/mask_class_0_batch_0.png) | ![](assets/sample_images/mask_class_1_batch_0.png) | ![](assets/sample_images/mask_class_2_batch_0.png) | ![](assets/sample_images/mask_class_3_batch_0.png) | ![](assets/sample_images/mask_class_4_batch_0.png) |
| ![](assets/sample_images/image_class_0_batch_0_sample_0.png) | ![](assets/sample_images/image_class_1_batch_0_sample_0.png) | ![](assets/sample_images/image_class_2_batch_0_sample_0.png) | ![](assets/sample_images/image_class_3_batch_0_sample_0.png) | ![](assets/sample_images/image_class_4_batch_0_sample_0.png) |
| ![](assets/sample_images/image_class_0_batch_0_sample_1.png) | ![](assets/sample_images/image_class_1_batch_0_sample_1.png) | ![](assets/sample_images/image_class_2_batch_0_sample_1.png) | ![](assets/sample_images/image_class_3_batch_0_sample_1.png) | ![](assets/sample_images/image_class_4_batch_0_sample_1.png) |
## Cite this work
If you find this work useful for your research, give us a kudos by citing:
```
@article{hou2023high,
title={High-fidelity diabetic retina fundus image synthesis from freestyle lesion maps},
author={Hou, Benjamin},
journal={Biomedical Optics Express},
volume={14},
number={2},
pages={533--549},
year={2023},
publisher={Optica Publishing Group}
}
```
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