ConUDiff: diffusion model with contrastive pretraining and uncertain region optimization for segmentation of left ventricle from echocardiography

Accurate segmentation of the left ventricle (LV) in echocardiograms plays a crucial role in the diagnosis and treatment of cardiovascular diseases. However, manual segmentation of the left ventricle is time-consuming and subject to inter-observer variability. It is crucial to develop an accurate and...

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Bibliographic Details
Published inPattern analysis and applications : PAA Vol. 28; no. 3
Main Authors Zhang, Guohuan, Zhang, Lei, Fu, Xuetong, Wang, Yuanquan, Zhou, Shoujun, Wei, Jin, Zhao, Di
Format Journal Article
LanguageEnglish
Published London Springer London 01.09.2025
Springer Nature B.V
Subjects
Coders
Computer Science
Datasets
Echocardiography
Feature maps
Modules
Optimization
Original Article
Pattern Recognition
Pediatrics
Probabilistic models
Uncertain region optimization
Diffusion models
Echocardiography
Segmentation
Left ventricle
Contrastive learning
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Summary:Accurate segmentation of the left ventricle (LV) in echocardiograms plays a crucial role in the diagnosis and treatment of cardiovascular diseases. However, manual segmentation of the left ventricle is time-consuming and subject to inter-observer variability. It is crucial to develop an accurate and automatic segmentation method. In this paper, we propose a novel diffusion-based model, called ConUDiff in short, for LV segmentation in echocardiography. The proposed ConUDiff is based on the denoising diffusion probabilistic model and two modules are introduced, i.e., a contrastive pretrained ResNet-50 encoder and an uncertain region optimization module (UROM). The contrastive pretrained ResNet-50 encoder is employed to extract rich feature representations from the original image and enhance the semantic information contained in the feature maps. The UROM module is designed to optimize uncertain regions in the feature maps. We evaluate our method on two public datasets, i.e., the EchoNet-Dynamic dataset and the EchoNet-Pediatric dataset. The experimental results demonstrate that the proposed ConUDiff outperforms some popular networks, achieving a Dice score of 92.68% on the EchoNet-Dynamic dataset and a Dice score of 90.69% on the EchoNet-Pediatric dataset. Our method shows the potential for echocardiographic left ventricle segmentation.
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ISSN:1433-7541
1433-755X
DOI:10.1007/s10044-025-01509-7