Applying Large Language Models for Causal Structure Learning in Non Small Cell Lung Cancer
This is an incremental advance that could help medical professionals improve treatment decisions by better understanding causal links in complex healthcare systems.
The paper tackled the problem of determining edge directionality in causal graphs for Non Small Cell Lung Cancer data, using Large Language Models to outperform existing state-of-the-art methods in accuracy.
Causal discovery is becoming a key part in medical AI research. These methods can enhance healthcare by identifying causal links between biomarkers, demographics, treatments and outcomes. They can aid medical professionals in choosing more impactful treatments and strategies. In parallel, Large Language Models (LLMs) have shown great potential in identifying patterns and generating insights from text data. In this paper we investigate applying LLMs to the problem of determining the directionality of edges in causal discovery. Specifically, we test our approach on a deidentified set of Non Small Cell Lung Cancer(NSCLC) patients that have both electronic health record and genomic panel data. Graphs are validated using Bayesian Dirichlet estimators using tabular data. Our result shows that LLMs can accurately predict the directionality of edges in causal graphs, outperforming existing state-of-the-art methods. These findings suggests that LLMs can play a significant role in advancing causal discovery and help us better understand complex systems.