@inproceedings{a1b74318680a432ba19d328c809690c8,
title = "Semi-Supervised Semantic Segmentation of Cell Nuclei with Diffusion Model",
abstract = "Accurate segmentation of cell nuclei in microscopic images is important for disease diagnosis and tissue microenvironment analysis. Supervised methods have shown promise but need large annotated datasets. Semi-supervised strategies help by incorporating unlabeled data, though performance can remain limited when labeled data are scarce. We propose a diffusion model-based semi-supervised framework that can use diverse unlabeled data in an unsupervised manner. Our method, called DTSeg, employs a latent diffusion model (LDM) and a transformer-based decoder. The LDM learns from varied unlabeled images, while the decoder is trained in a supervised manner with limited labeled data. Experiments on three datasets show that our method achieves better segmentation performance than existing semi-supervised approaches.",
keywords = "Diffusion model, Pre-training, Semi-supervised semantic segmentation",
author = "Zhuchen Shao and Sourya Sengupta and Anastasio, {Mark A.} and Hua Li",
note = "This work was supported in part by NIH Awards P41EB031772, R01EB034249, R01CA233873, R01CA287778, R56DE033344, and U54CA274318. It was also funded by the Cancer Center at Illinois seed grant and the Jump ARCHES endowment through the Health Care Engineering Systems Center. We thank Michael Wu for assistance with manuscript proofreading.; Medical Imaging 2025: Digital and Computational Pathology ; Conference date: 18-02-2025 Through 20-02-2025",
year = "2025",
doi = "10.1117/12.3047209",
language = "English (US)",
series = "Progress in Biomedical Optics and Imaging - Proceedings of SPIE",
publisher = "SPIE",
editor = "Tomaszewski, {John E.} and Ward, {Aaron D.}",
booktitle = "Medical Imaging 2025",
}