Foundation Models in Medical Imaging: A Review and Outlook
van Veldhuizen, Vivien, Botha, Vanessa, Lu, Chunyao, Cesur, Melis Erdal, Lipman, Kevin Groot, de Jong, Edwin D., Horlings, Hugo, Sanchez, Clárisa I., Snoek, Cees G. M., Wessels, Lodewyk, Mann, Ritse, Marcus, Eric, Teuwen, Jonas
–arXiv.org Artificial Intelligence
Foundation models (FMs) are changing the way medical images are analyzed by learning from large collections of unlabeled data. Instead of relying on manually annotated examples, FMs are pre-trained to learn general-purpose visual features that can later be adapted to specific clinical tasks with little additional supervision. In this review, we examine how FMs are being developed and applied in pathology, radiology, and ophthalmology, drawing on evidence from over 150 studies. We explain the core components of FM pipelines, including model architectures, self-supervised learning methods, and strategies for downstream adaptation. We also review how FMs are being used in each imaging domain and compare design choices across applications. Finally, we discuss key challenges and open questions to guide future research.
arXiv.org Artificial Intelligence
Nov-19-2025
- Country:
- Europe > Netherlands (0.27)
- Genre:
- Overview (1.00)
- Research Report > New Finding (0.45)
- Industry:
- Health & Medicine
- Therapeutic Area > Ophthalmology/Optometry (1.00)
- Health Care Technology (1.00)
- Diagnostic Medicine > Imaging (1.00)
- Health & Medicine
- Technology:
- Information Technology > Artificial Intelligence
- Natural Language > Large Language Model (1.00)
- Vision > Image Understanding (0.87)
- Machine Learning
- Statistical Learning (1.00)
- Neural Networks > Deep Learning (1.00)
- Inductive Learning (0.69)
- Information Technology > Artificial Intelligence