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Main Authors: Garza-Abdala, Jorge Alberto, Fumagal-González, Gerardo A., de Avila-Armenta, Eduardo, Hussain, Sadam, Toscano-Martínezb, Jasiel H., Gurmendi, Diana S. M. Rosales, Pedro-Pérez, Alma A., Tamez-Pena, Jose G.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.05110
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author Garza-Abdala, Jorge Alberto
Fumagal-González, Gerardo A.
de Avila-Armenta, Eduardo
Hussain, Sadam
Toscano-Martínezb, Jasiel H.
Gurmendi, Diana S. M. Rosales
Pedro-Pérez, Alma A.
Tamez-Pena, Jose G.
author_facet Garza-Abdala, Jorge Alberto
Fumagal-González, Gerardo A.
de Avila-Armenta, Eduardo
Hussain, Sadam
Toscano-Martínezb, Jasiel H.
Gurmendi, Diana S. M. Rosales
Pedro-Pérez, Alma A.
Tamez-Pena, Jose G.
contents Breast cancer screening relies heavily on mammography, where the craniocaudal (CC) and mediolateral oblique (MLO) views provide complementary information for diagnosis. However, many datasets lack complete paired views, limiting the development of algorithms that depend on cross-view consistency. To address this gap, we propose a three-channel denoising diffusion probabilistic model capable of simultaneously generating CC and MLO views of a single breast. In this configuration, the two mammographic views are stored in separate channels, while a third channel encodes their absolute difference to guide the model toward learning coherent anatomical relationships between projections. A pretrained DDPM from Hugging Face was fine-tuned on a private screening dataset and used to synthesize dual-view pairs. Evaluation included geometric consistency via automated breast mask segmentation and distributional comparison with real images, along with qualitative inspection of cross-view alignment. The results show that the difference-based encoding helps preserve the global breast structure across views, producing synthetic CC-MLO pairs that resemble real acquisitions. This work demonstrates the feasibility of simultaneous dual-view mammogram synthesis using a difference-guided DDPM, highlighting its potential for dataset augmentation and future cross-view-aware AI applications in breast imaging.
format Preprint
id arxiv_https___arxiv_org_abs_2604_05110
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Simultaneous Dual-View Mammogram Synthesis Using Denoising Diffusion Probabilistic Models
Garza-Abdala, Jorge Alberto
Fumagal-González, Gerardo A.
de Avila-Armenta, Eduardo
Hussain, Sadam
Toscano-Martínezb, Jasiel H.
Gurmendi, Diana S. M. Rosales
Pedro-Pérez, Alma A.
Tamez-Pena, Jose G.
Computer Vision and Pattern Recognition
Artificial Intelligence
Breast cancer screening relies heavily on mammography, where the craniocaudal (CC) and mediolateral oblique (MLO) views provide complementary information for diagnosis. However, many datasets lack complete paired views, limiting the development of algorithms that depend on cross-view consistency. To address this gap, we propose a three-channel denoising diffusion probabilistic model capable of simultaneously generating CC and MLO views of a single breast. In this configuration, the two mammographic views are stored in separate channels, while a third channel encodes their absolute difference to guide the model toward learning coherent anatomical relationships between projections. A pretrained DDPM from Hugging Face was fine-tuned on a private screening dataset and used to synthesize dual-view pairs. Evaluation included geometric consistency via automated breast mask segmentation and distributional comparison with real images, along with qualitative inspection of cross-view alignment. The results show that the difference-based encoding helps preserve the global breast structure across views, producing synthetic CC-MLO pairs that resemble real acquisitions. This work demonstrates the feasibility of simultaneous dual-view mammogram synthesis using a difference-guided DDPM, highlighting its potential for dataset augmentation and future cross-view-aware AI applications in breast imaging.
title Simultaneous Dual-View Mammogram Synthesis Using Denoising Diffusion Probabilistic Models
topic Computer Vision and Pattern Recognition
Artificial Intelligence
url https://arxiv.org/abs/2604.05110