Keskeiset käsitteet
Anatomical conditioning through a segmentation decoder improves the quality and semantic consistency of contrastive unpaired image-to-image translation for optical coherence tomography images.
Tiivistelmä
The content presents an approach called Anatomically Conditioned Contrastive Unpaired Image-to-Image Translation (ACCUT) that extends the Contrastive Learning for Unpaired Image-to-Image Translation (CUT) method.
The key highlights are:
- CUT reduces semantic consistency in unpaired image-to-image translation due to information discrepancy between source and target domains.
- ACCUT introduces an additional segmentation decoder that shares features with the style decoder to provide anatomical conditioning and suppress structure hallucination.
- Experiments on optical coherence tomography (OCT) images show that ACCUT with segmentation conditioning on the source domain (ACCUTs) improves downstream segmentation performance in an unsupervised domain adaptation setting compared to CUT.
- The ablation study demonstrates that the style decoder effectively utilizes the anatomical information from the segmentation decoder.
- ACCUT with segmentation conditioning on both source and target domains (ACCUTs,t) achieves the best image similarity to the target domain based on the Fréchet Inception Distance.
The authors conclude that anatomical conditioning is crucial to address data set imbalances and structure hallucination issues in contrastive unpaired image-to-image translation.
Tilastot
The data set consists of 38 subjects examined with both Spectralis-OCT and Home-OCT devices. Relevant biomarkers such as subretinal fluids (SRF) and pigment epithelial detachment (PED) were annotated by a clinical expert.
Lainaukset
"To cope with the above-mentioned problems, we introduce anatomically conditioned contrastive unpaired image-to-image translation."
"Our method extends the CUT approach by introducing additional anatomical conditioning, which is intended to suppress the hallucination of structures."