Debiasing Medical Knowledge for Prompting Universal Model in CT Image Segmentation

With the assistance of large language models, which offer universal medical prior knowledge via text prompts, state-of-the-art Universal Models (UM) have demonstrated considerable potential in the field of medical image segmentation. Semantically detailed text prompts, on the one hand, indicate comprehensive knowledge; on the other hand, they bring biases that may not be applicable to specific cases involving heterogeneous organs or rare cancers. To this end, we propose a Debiased Universal Model (DUM) to consider instance-level context information and remove knowledge biases in text prompts from the causal perspective.We are the first to discover and mitigate the bias introduced by universal knowledge. Specifically, we propose to extract organ-level text prompts via language models and instance-level context prompts from the visual features of each image. We aim to highlight more on factual instance-level information and mitigate organ-level's knowledge bias. This process can be derived and theoretically supported by a causal graph, and instantiated by designing a standard UM (SUM) and a biased UM. The debiased output is finally obtained by subtracting the likelihood distribution output by biased UM from that of the SUM. Experiments on three large-scale multi-center external datasets and MSD internal tumor datasets show that our method enhances the model's generalization ability in handling diverse medical scenarios and reducing the potential biases, even with an improvement of 4.16% compared with popular universal model on the AbdomenAtlas dataset, showing the strong generalizability. The code is publicly available at https://github.com/DeepMed-Lab-ECNU/DUM.