Causality Refined Diagnostic Prediction
This work addresses the need for interpretable and accurate diagnostic tools for healthcare personnel, though it appears incremental as it builds on existing multi-view probabilistic models.
The paper tackled the problem of improving diagnostic prediction in healthcare by using causal relationships to refine predictions from discomfort drawings, resulting in potential improvements in pain diagnostics accuracy.
Applying machine learning in the health care domain has shown promising results in recent years. Interpretable outputs from learning algorithms are desirable for decision making by health care personnel. In this work, we explore the possibility of utilizing causal relationships to refine diagnostic prediction. We focus on the task of diagnostic prediction using discomfort drawings, and explore two ways to employ causal identification to improve the diagnostic results. Firstly, we use causal identification to infer the causal relationships among diagnostic labels which, by itself, provides interpretable results to aid the decision making and training of health care personnel. Secondly, we suggest a post-processing approach where the inferred causal relationships are used to refine the prediction accuracy of a multi-view probabilistic model. Experimental results show firstly that causal identification is capable of detecting the causal relationships among diagnostic labels correctly, and secondly that there is potential for improving pain diagnostics prediction accuracy using the causal relationships.