Latent Diffusion Models with Image-Derived Annotations for Enhanced AI-Assisted Cancer Diagnosis in Histopathology

Pedro Osorio; Guillermo Jimenez-Perez; Javier Montalt-Tordera; Jens Hooge; Guillem Duran-Ballester; Shivam Singh; Moritz Radbruch; Ute Bach; Sabrina Schroeder; Krystyna Siudak; Julia Vienenkoetter; Bettina Lawrenz; Sadegh Mohammadi

doi:10.3390/diagnostics14131442

Diagnostics (Jul 2024)

Latent Diffusion Models with Image-Derived Annotations for Enhanced AI-Assisted Cancer Diagnosis in Histopathology

Pedro Osorio,
Guillermo Jimenez-Perez,
Javier Montalt-Tordera,
Jens Hooge,
Guillem Duran-Ballester,
Shivam Singh,
Moritz Radbruch,
Ute Bach,
Sabrina Schroeder,
Krystyna Siudak,
Julia Vienenkoetter,
Bettina Lawrenz,
Sadegh Mohammadi

Affiliations

Pedro Osorio: Decision Science & Advanced Analytics, Bayer AG, 13353 Berlin, Germany
Guillermo Jimenez-Perez: Decision Science & Advanced Analytics, Bayer AG, 13353 Berlin, Germany
Javier Montalt-Tordera: Decision Science & Advanced Analytics, Bayer AG, 13353 Berlin, Germany
Jens Hooge: Decision Science & Advanced Analytics, Bayer AG, 13353 Berlin, Germany
Guillem Duran-Ballester: Decision Science & Advanced Analytics, Bayer AG, 13353 Berlin, Germany
Shivam Singh: Decision Science & Advanced Analytics, Bayer AG, 13353 Berlin, Germany
Moritz Radbruch: Pathology and Clinical Pathology, Bayer AG, 13353 Berlin, Germany
Ute Bach: Pathology and Clinical Pathology, Bayer AG, 13353 Berlin, Germany
Sabrina Schroeder: Pathology and Clinical Pathology, Bayer AG, 13353 Berlin, Germany
Krystyna Siudak: Pathology and Clinical Pathology, Bayer AG, 13353 Berlin, Germany
Julia Vienenkoetter: Pathology and Clinical Pathology, Bayer AG, 13353 Berlin, Germany
Bettina Lawrenz: Pathology and Clinical Pathology, Bayer AG, 13353 Berlin, Germany
Sadegh Mohammadi: Decision Science & Advanced Analytics, Bayer AG, 13353 Berlin, Germany

DOI: https://doi.org/10.3390/diagnostics14131442
Journal volume & issue: Vol. 14, no. 13
p. 1442

Abstract

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Artificial Intelligence (AI)-based image analysis has immense potential to support diagnostic histopathology, including cancer diagnostics. However, developing supervised AI methods requires large-scale annotated datasets. A potentially powerful solution is to augment training data with synthetic data. Latent diffusion models, which can generate high-quality, diverse synthetic images, are promising. However, the most common implementations rely on detailed textual descriptions, which are not generally available in this domain. This work proposes a method that constructs structured textual prompts from automatically extracted image features. We experiment with the PCam dataset, composed of tissue patches only loosely annotated as healthy or cancerous. We show that including image-derived features in the prompt, as opposed to only healthy and cancerous labels, improves the Fréchet Inception Distance (FID) by 88.6. We also show that pathologists find it challenging to detect synthetic images, with a median sensitivity/specificity of 0.55/0.55. Finally, we show that synthetic data effectively train AI models.

Published in Diagnostics

ISSN: 2075-4418 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Medicine: Medicine (General)
Website: http://www.mdpi.com/journal/diagnostics

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