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Main Authors: Shan, Dongjing, Luo, Yamei, Xuan, Jiqing, Huang, Lu, Li, Jin, Yang, Mengchu, Chen, Zeyu, Lv, Fajin, Tang, Yong, Zhang, Chunxiang
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2602.19822
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author Shan, Dongjing
Luo, Yamei
Xuan, Jiqing
Huang, Lu
Li, Jin
Yang, Mengchu
Chen, Zeyu
Lv, Fajin
Tang, Yong
Zhang, Chunxiang
author_facet Shan, Dongjing
Luo, Yamei
Xuan, Jiqing
Huang, Lu
Li, Jin
Yang, Mengchu
Chen, Zeyu
Lv, Fajin
Tang, Yong
Zhang, Chunxiang
contents Early detection of myometrial invasion is critical for the staging and life-saving management of endometrial carcinoma (EC), a prevalent global malignancy. Transvaginal ultrasound serves as the primary, accessible screening modality in resource-constrained primary care settings; however, its diagnostic reliability is severely hindered by low tissue contrast, high operator dependence, and a pronounced scarcity of positive pathological samples. Existing artificial intelligence solutions struggle to overcome this severe class imbalance and the subtle imaging features of invasion, particularly under the strict computational limits of primary care clinics. Here we present an automated, highly efficient two-stage deep learning framework that resolves both data and computational bottlenecks in EC screening. To mitigate pathological data scarcity, we develop a structure-guided cross-modal generation network that synthesizes diverse, high-fidelity ultrasound images from unpaired magnetic resonance imaging (MRI) data, strictly preserving clinically essential anatomical junctions. Furthermore, we introduce a lightweight screening network utilizing gradient distillation, which transfers discriminative knowledge from a high-capacity teacher model to dynamically guide sparse attention towards task-critical regions. Evaluated on a large, multicenter cohort of 7,951 participants, our model achieves a sensitivity of 99.5\%, a specificity of 97.2\%, and an area under the curve of 0.987 at a minimal computational cost (0.289 GFLOPs), substantially outperforming the average diagnostic accuracy of expert sonographers. Our approach demonstrates that combining cross-modal synthetic augmentation with knowledge-driven efficient modeling can democratize expert-level, real-time cancer screening for resource-constrained primary care settings.
format Preprint
id arxiv_https___arxiv_org_abs_2602_19822
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Efficient endometrial carcinoma screening via cross-modal synthesis and gradient distillation
Shan, Dongjing
Luo, Yamei
Xuan, Jiqing
Huang, Lu
Li, Jin
Yang, Mengchu
Chen, Zeyu
Lv, Fajin
Tang, Yong
Zhang, Chunxiang
Computer Vision and Pattern Recognition
Artificial Intelligence
Early detection of myometrial invasion is critical for the staging and life-saving management of endometrial carcinoma (EC), a prevalent global malignancy. Transvaginal ultrasound serves as the primary, accessible screening modality in resource-constrained primary care settings; however, its diagnostic reliability is severely hindered by low tissue contrast, high operator dependence, and a pronounced scarcity of positive pathological samples. Existing artificial intelligence solutions struggle to overcome this severe class imbalance and the subtle imaging features of invasion, particularly under the strict computational limits of primary care clinics. Here we present an automated, highly efficient two-stage deep learning framework that resolves both data and computational bottlenecks in EC screening. To mitigate pathological data scarcity, we develop a structure-guided cross-modal generation network that synthesizes diverse, high-fidelity ultrasound images from unpaired magnetic resonance imaging (MRI) data, strictly preserving clinically essential anatomical junctions. Furthermore, we introduce a lightweight screening network utilizing gradient distillation, which transfers discriminative knowledge from a high-capacity teacher model to dynamically guide sparse attention towards task-critical regions. Evaluated on a large, multicenter cohort of 7,951 participants, our model achieves a sensitivity of 99.5\%, a specificity of 97.2\%, and an area under the curve of 0.987 at a minimal computational cost (0.289 GFLOPs), substantially outperforming the average diagnostic accuracy of expert sonographers. Our approach demonstrates that combining cross-modal synthetic augmentation with knowledge-driven efficient modeling can democratize expert-level, real-time cancer screening for resource-constrained primary care settings.
title Efficient endometrial carcinoma screening via cross-modal synthesis and gradient distillation
topic Computer Vision and Pattern Recognition
Artificial Intelligence
url https://arxiv.org/abs/2602.19822