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Deep Generative Models in Digital Subtraction Angiography (DSA) and X-Ray Angiography: A Systematic Review

MCML Authors

Qiwen Xu

→ Group David Rügamer
Statistics, Data Science and Machine Learning

David Rügamer

Prof. Dr.

Principal Investigator

Statistics, Data Science and Machine Learning

Andreas Bender

Dr.

→ Group Bernd Bischl
Statistical Learning and Data Science

Abstract

Deep generative models, such as generative adversarial networks (GANs), variational autoencoders (VAEs), and diffusion models, have demonstrated remarkable success in static medical imaging tasks, including image synthesis, domain translation, and data augmentation. However, their application to dynamic vascular modalities such as digital subtraction angiography (DSA) and X-ray angiography (XA) has received comparatively limited attention. This systematic review synthesizes 20 peer-reviewed studies published between January 2018 and July 2025, offering a comprehensive analysis of generative model usage in angiographic imaging. We categorize methods by model type, learning paradigm, and application focus, covering tasks such as image generation, vessel segmentation, and stenosis detection. GANs dominate the field, while diffusion models show emerging promise. Key limitations include the scarcity of public datasets, inconsistent evaluation metrics, and limited code availability, which hinder reproducibility and benchmarking. We conclude by outlining methodological trends and highlighting future directions, including the development of anatomically conditioned generative models and the need for large-scale, open-access datasets to support robust evaluation and clinical translation.

article XRB+26