Rethinking Human-AI Collaboration in Complex Medical Decision Making: A Case Study in Sepsis Diagnosis.
Shao ZhangJianing YuXuhai XuChangchang YinYuxuan LuBingsheng YaoMelanie ToryLace M PadillaJeffrey CaterinoPing ZhangDakuo WangPublished in: Proceedings of the SIGCHI conference on human factors in computing systems. CHI Conference (2024)
Today's AI systems for medical decision support often succeed on benchmark datasets in research papers but fail in real-world deployment. This work focuses on the decision making of sepsis, an acute life-threatening systematic infection that requires an early diagnosis with high uncertainty from the clinician. Our aim is to explore the design requirements for AI systems that can support clinical experts in making better decisions for the early diagnosis of sepsis. The study begins with a formative study investigating why clinical experts abandon an existing AI-powered Sepsis predictive module in their electrical health record (EHR) system. We argue that a human-centered AI system needs to support human experts in the intermediate stages of a medical decision-making process (e.g., generating hypotheses or gathering data), instead of focusing only on the final decision. Therefore, we build SepsisLab based on a state-of-the-art AI algorithm and extend it to predict the future projection of sepsis development, visualize the prediction uncertainty, and propose actionable suggestions (i.e., which additional laboratory tests can be collected) to reduce such uncertainty. Through heuristic evaluation with six clinicians using our prototype system, we demonstrate that SepsisLab enables a promising human-AI collaboration paradigm for the future of AI-assisted sepsis diagnosis and other high-stakes medical decision making.
Keyphrases
- decision making
- artificial intelligence
- endothelial cells
- septic shock
- acute kidney injury
- intensive care unit
- healthcare
- induced pluripotent stem cells
- machine learning
- pluripotent stem cells
- deep learning
- big data
- liver failure
- computed tomography
- climate change
- rna seq
- acute respiratory distress syndrome
- human health