Related papers: A Dual-Task Synergy-Driven Generalization Framework for Pancreatic Cancer Segmentation in CT Scans

A Dual-Task Synergy-Driven Generalization Framework for Pancreatic Cancer Segmentation in CT Scans

URL: http://arxiv.org/abs/2505.01644v1
Date: Sat, 03 May 2025 00:54:00 GMT
Title: A Dual-Task Synergy-Driven Generalization Framework for Pancreatic Cancer Segmentation in CT Scans
Authors: Jun Li, Yijue Zhang, Haibo Shi, Minhong Li, Qiwei Li, Xiaohua Qian,
Abstract summary: Pancreatic cancer, characterized by its notable prevalence and mortality rates, demands accurate lesion delineation.<n>We propose a generalization framework that synergizes pixel-level classification and regression tasks, to accurately delineate lesions.<n>Our model successfully improves the results of the highly challenging cross-lesion generalized pancreatic cancer segmentation task by 9.51%.
Score: 10.62594407632477
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Pancreatic cancer, characterized by its notable prevalence and mortality rates, demands accurate lesion delineation for effective diagnosis and therapeutic interventions. The generalizability of extant methods is frequently compromised due to the pronounced variability in imaging and the heterogeneous characteristics of pancreatic lesions, which may mimic normal tissues and exhibit significant inter-patient variability. Thus, we propose a generalization framework that synergizes pixel-level classification and regression tasks, to accurately delineate lesions and improve model stability. This framework not only seeks to align segmentation contours with actual lesions but also uses regression to elucidate spatial relationships between diseased and normal tissues, thereby improving tumor localization and morphological characterization. Enhanced by the reciprocal transformation of task outputs, our approach integrates additional regression supervision within the segmentation context, bolstering the model's generalization ability from a dual-task perspective. Besides, dual self-supervised learning in feature spaces and output spaces augments the model's representational capability and stability across different imaging views. Experiments on 594 samples composed of three datasets with significant imaging differences demonstrate that our generalized pancreas segmentation results comparable to mainstream in-domain validation performance (Dice: 84.07%). More importantly, it successfully improves the results of the highly challenging cross-lesion generalized pancreatic cancer segmentation task by 9.51%. Thus, our model constitutes a resilient and efficient foundational technological support for pancreatic disease management and wider medical applications. The codes will be released at https://github.com/SJTUBME-QianLab/Dual-Task-Seg.

Related papers

STG: Spatiotemporal Graph Neural Network with Fusion and Spatiotemporal Decoupling Learning for Prognostic Prediction of Colorectal Cancer Liver Metastasis [9.511932098831322]
We propose a multimodaltemporal graph neural network (STG) framework to predict colorectal cancer liver metastasis (KCCM)<n>Our STG framework combines CT imaging and clinical data into a heterogeneous graph structure, enabling joint modeling of tumor distribution edges and temporal evolution.<n>A lightweight version of the model reduces parameter count by 78.55%, maintaining near-state-of-the-art performance.
arXiv Detail & Related papers (2025-05-06T02:41:34Z)
Causal Disentanglement for Robust Long-tail Medical Image Generation [80.15257897500578]
We propose a novel medical image generation framework, which generates independent pathological and structural features.<n>We leverage a diffusion model guided by pathological findings to model pathological features, enabling the generation of diverse counterfactual images.
arXiv Detail & Related papers (2025-04-20T01:54:18Z)
Towards Accurate and Interpretable Neuroblastoma Diagnosis via Contrastive Multi-scale Pathological Image Analysis [16.268045905735818]
We propose CMSwinKAN, a contrastive-learning-based multi-scale feature fusion model tailored for pathological image classification.<n>By fusing multi-scale features and leveraging contrastive learning strategies, CMSwinKAN mimics clinicians' comprehensive approach.<n>Results demonstrate that CMSwinKAN performs better than existing state-of-the-art pathology-specific models pre-trained on large datasets.
arXiv Detail & Related papers (2025-04-18T15:39:46Z)
DGSSA: Domain generalization with structural and stylistic augmentation for retinal vessel segmentation [17.396365010722423]
Retinal vascular morphology is crucial for diagnosing diseases such as diabetes, glaucoma, and hypertension.<n>Traditional segmentation methods assume that training and testing data share similar distributions, which can lead to poor performance on unseen domains.<n>This paper presents a novel approach, DGSSA, for retinal vessel image segmentation that enhances model generalization by combining structural and style augmentation strategies.
arXiv Detail & Related papers (2025-01-07T01:47:57Z)
Multiscale Latent Diffusion Model for Enhanced Feature Extraction from Medical Images [5.395912799904941]
variations in CT scanner models and acquisition protocols introduce significant variability in the extracted radiomic features.<n> LTDiff++ is a multiscale latent diffusion model designed to enhance feature extraction in medical imaging.
arXiv Detail & Related papers (2024-10-05T02:13:57Z)
Semantics-Aware Attention Guidance for Diagnosing Whole Slide Images [5.856390270089738]
We introduce a novel framework named Semantics-Aware Attention Guidance (SAG) SAG includes 1) a technique for converting diagnostically relevant entities into attention signals, and 2) a flexible attention loss that efficiently integrates semantically significant information. Our experiments on two distinct cancer datasets demonstrate consistent improvements in accuracy, precision, and recall.
arXiv Detail & Related papers (2024-04-16T20:37:14Z)
Dual-scale Enhanced and Cross-generative Consistency Learning for Semi-supervised Medical Image Segmentation [49.57907601086494]
Medical image segmentation plays a crucial role in computer-aided diagnosis. We propose a novel Dual-scale Enhanced and Cross-generative consistency learning framework for semi-supervised medical image (DEC-Seg)
arXiv Detail & Related papers (2023-12-26T12:56:31Z)
3DSAM-adapter: Holistic adaptation of SAM from 2D to 3D for promptable tumor segmentation [52.699139151447945]
We propose a novel adaptation method for transferring the segment anything model (SAM) from 2D to 3D for promptable medical image segmentation. Our model can outperform domain state-of-the-art medical image segmentation models on 3 out of 4 tasks, specifically by 8.25%, 29.87%, and 10.11% for kidney tumor, pancreas tumor, colon cancer segmentation, and achieve similar performance for liver tumor segmentation.
arXiv Detail & Related papers (2023-06-23T12:09:52Z)
Rethinking Semi-Supervised Medical Image Segmentation: A Variance-Reduction Perspective [51.70661197256033]
We propose ARCO, a semi-supervised contrastive learning framework with stratified group theory for medical image segmentation. We first propose building ARCO through the concept of variance-reduced estimation and show that certain variance-reduction techniques are particularly beneficial in pixel/voxel-level segmentation tasks. We experimentally validate our approaches on eight benchmarks, i.e., five 2D/3D medical and three semantic segmentation datasets, with different label settings.
arXiv Detail & Related papers (2023-02-03T13:50:25Z)
Reliable Joint Segmentation of Retinal Edema Lesions in OCT Images [55.83984261827332]
In this paper, we propose a novel reliable multi-scale wavelet-enhanced transformer network. We develop a novel segmentation backbone that integrates a wavelet-enhanced feature extractor network and a multi-scale transformer module. Our proposed method achieves better segmentation accuracy with a high degree of reliability as compared to other state-of-the-art segmentation approaches.
arXiv Detail & Related papers (2022-12-01T07:32:56Z)
Texture Characterization of Histopathologic Images Using Ecological Diversity Measures and Discrete Wavelet Transform [82.53597363161228]
This paper proposes a method for characterizing texture across histopathologic images with a considerable success rate. It is possible to quantify the intrinsic properties of such images with promising accuracy on two HI datasets.
arXiv Detail & Related papers (2022-02-27T02:19:09Z)

This list is automatically generated from the titles and abstracts of the papers in this site.