Conceitos Básicos
A framework that can generate realistic colorectal tissue images along with corresponding glandular masks, controlled by the input gland layout.
Resumo
The proposed framework generates annotated pairs of colorectal tissue images and their corresponding tissue component masks, using the input gland layout. The framework accurately captures vital features like stroma, goblet cells, and glandular lumen, and allows users to control the appearance of glands by adjusting their locations and sizes.
The key components of the framework are:
- Generation of individual glandular masks using a mask generator network, which are then combined to form the final tissue component mask.
- An encoder-decoder network that takes the tissue component mask as input and generates the final tissue image.
- Three discriminator networks that ensure the realism of the generated masks, images, and glandular portions.
- An alternative approach using latent diffusion models to synthesize glandular masks, which are then used to generate the tissue images.
The generated annotated pairs exhibit good Frechet Inception Distance (FID) scores compared to the state-of-the-art image-to-image translation model. The authors also demonstrate the utility of the synthetic annotations for evaluating gland segmentation algorithms.
Estatísticas
The framework uses the DigestPath dataset, which contains 660 large tissue images with pixel-level annotations for glandular regions.
The authors extract 1,733 patches of size 512 x 512, which are later resized to 256 x 256, with around 1,300 used for training and the rest for testing.
Citações
"Generating realistic tissue images with annotations is a challenging task that is important in many computational histopathology applications."
"Synthetically generated images and annotations are valuable for training and evaluating algorithms in this domain."