VDSB-GWSyn uses DSB conditioned on vessel masks and a shape prior to synthesize guidewires, yielding downstream localization gains when used for pre-training.
Geometrically Constrained Stenosis Editing in Coronary Angiography via Entropic Optimal Transport
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abstract
The scarcity of high-quality imaging data for coronary angiography (CAG) stenosis limits the clinical translation of automated stenosis detection. Synthetic stenosis data provides a practical avenue to augment training sets, improving data quality, diversity, and distributional coverage, and enhancing detection precision and generalization. However, diffusion-based editing commonly relies on soft guidance in a noise-initialized reverse process, offering limited pixel-level precision and structure preservation. We propose the OT-Bridge Editor, which reframes localized editing as a constrained entropic optimal transport (OT) problem and leverages geometric information to steer the generation path, enabling stronger geometric control. Extensive experiments show that our synthesized angiograms consistently improve downstream stenosis detection, yielding substantial relative gains of 27.8% on the public ARCADE benchmark and 23.0% on our multi-center dataset, supported by consistent qualitative results.
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cs.CV 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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VDSB-GWSyn: Diffusion Schr\"{o}dinger Bridge for Controllable and Anatomically Feasible Guidewire Synthesis in Coronary Angiography
VDSB-GWSyn uses DSB conditioned on vessel masks and a shape prior to synthesize guidewires, yielding downstream localization gains when used for pre-training.