Epistemic-aware Vision-Language Foundation Model for Fetal Ultrasound Interpretation
This work addresses the problem of improving AI-assisted diagnosis and report generation in fetal ultrasound for medical practitioners, though it is incremental as it builds on existing medical vision-language models.
The paper tackles the challenge of adapting vision-language models to fetal ultrasound interpretation, which involves multi-view reasoning and diverse diseases, by introducing FetalMind with a novel method and dataset, resulting in +14% average gains and +61.2% higher accuracy on critical conditions.
Recent medical vision-language models have shown promise on tasks such as VQA, report generation, and anomaly detection. However, most are adapted to structured adult imaging and underperform in fetal ultrasound, which poses challenges of multi-view image reasoning, numerous diseases, and image diversity. To bridge this gap, we introduce FetalMind, a medical AI system tailored to fetal ultrasound for both report generation and diagnosis. Guided by clinical workflow, we propose Salient Epistemic Disentanglement (SED), which injects an expert-curated bipartite graph into the model to decouple view-disease associations and to steer preference selection along clinically faithful steps via reinforcement learning. This design mitigates variability across diseases and heterogeneity across views, reducing learning bottlenecks while aligning the model's inference with obstetric practice. To train FetalMind at scale, we curate FetalSigma-1M dataset, the first large-scale fetal ultrasound report corpus, comprising 20K reports from twelve medical centers, addressing the scarcity of domain data. Extensive experiments show that FetalMind outperforms open- and closed-source baselines across all gestational stages, achieving +14% average gains and +61.2% higher accuracy on critical conditions while remaining efficient, stable, and scalable. Project Page: https://hexiao0275.github.io/FetalMind.