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[ARTICLE · art-61427] src=arxiv.org ↗ pub= topic=artificial-intelligence verified=true sentiment=↑ positive

Improving Medical Image Generative Models with Fr\'echet Distance Loss

Researchers propose finetuning diffusion generative models with Fréchet Distance loss (FD-loss) to improve synthetic medical image generation of heterogeneous tumors. The method aligns feature statistics between real and generated images, leading to more faithful tumor synthesis and over 5% improvement in downstream segmentation Dice scores across multiple cancer datasets. This approach addresses limitations of standard denoising objectives that smooth irregular tumor structures.

read1 min views1 publishedJul 16, 2026

arXiv:2607.13300v1 Announce Type: new Abstract: Diffusion generative models have demonstrated immense potential for synthetic medical image generation. However, these models often struggle to capture complex morphological characteristics of heterogeneous tumors with irregular boundaries, limiting their utility for downstream clinical tasks such as segmentation. This limitation stems from the standard denoising objective: minimizing a per-pixel error, which smooths high-variance irregular structures characteristic of tumors. To address this, we propose finetuning these generative models with Fr'echet Distance loss (FD-loss). FD-loss aligns the first and second order feature statistics of real and generated images in a pretrained encoder space, encouraging the generator to capture complex structural variations characteristic of heterogeneous tumors. We integrate FD-loss across diverse architectural settings, using both natural- and medical-image encoders on multiple liver and brain cancer datasets spanning CT and MRI modalities. Downstream segmentation networks trained on our FD-regularized synthetic data consistently achieve superior performance, improving tumor DSC by $>$$5%$ over unregularized synthetic augmentation alone. Qualitative analysis suggests these gains are associated with more faithful tumor synthesis and fewer segmentation hallucinations. Our results show FD-loss as an effective regularizer for medical image generative models to improve clinical workflows.

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