Paper ID: 2411.06106
Personalize to generalize: Towards a universal medical multi-modality generalization through personalization
Zhaorui Tan, Xi Yang, Tan Pan, Tianyi Liu, Chen Jiang, Xin Guo, Qiufeng Wang, Anh Nguyen, Yuan Qi, Kaizhu Huang, Yuan Cheng
Personalized medicine is a groundbreaking healthcare framework for the $21^{st}$ century, tailoring medical treatments to individuals based on unique clinical characteristics, including diverse medical imaging modalities. Given the significant differences among these modalities due to distinct underlying imaging principles, generalization in multi-modal medical image tasks becomes substantially challenging. Previous methods addressing multi-modal generalization rarely consider personalization, primarily focusing on common anatomical information. This paper aims to bridge multi-modal generalization with the concept of personalized medicine. Specifically, we propose a novel approach to derive a tractable form of the underlying personalized invariant representation $\mathbb{X}_h$ by leveraging individual-level constraints and a learnable biological prior. We demonstrate the feasibility and benefits of learning a personalized $\mathbb{X}_h$, showing that this representation is highly generalizable and transferable across various multi-modal medical tasks. Our method is rigorously validated on medical imaging modalities emphasizing both physical structure and functional information, encompassing a range of tasks that require generalization. Extensive experimental results consistently show that our approach significantly improves performance across diverse scenarios, confirming its effectiveness.
Submitted: Nov 9, 2024