FairSkin: Fair Diffusion for Skin Disease Image Generation
This addresses fairness in medical AI for skin disease detection, reducing healthcare disparities by mitigating biases in synthetic data generation.
The paper tackled bias in diffusion models for skin disease image generation, where image quality and feature learning varied by skin tone, and proposed FairSkin to improve diversity and quality across racial and disease categories.
Image generation is a prevailing technique for clinical data augmentation for advancing diagnostic accuracy and reducing healthcare disparities. Diffusion Model (DM) has become a leading method in generating synthetic medical images, but it suffers from a critical twofold bias: (1) The quality of images generated for Caucasian individuals is significantly higher, as measured by the Frechet Inception Distance (FID). (2) The ability of the downstream-task learner to learn critical features from disease images varies across different skin tones. These biases pose significant risks, particularly in skin disease detection, where underrepresentation of certain skin tones can lead to misdiagnosis or neglect of specific conditions. To address these challenges, we propose FairSkin, a novel DM framework that mitigates these biases through a three-level resampling mechanism, ensuring fairer representation across racial and disease categories. Our approach significantly improves the diversity and quality of generated images, contributing to more equitable skin disease detection in clinical settings.