Explainable artificial intelligence model to predict acute critical illness from electronic health records.
Simon Meyer LauritsenMads KristensenMathias Vassard OlsenMorten Skaarup LarsenKatrine Meyer LauritsenMarianne Johansson JørgensenJeppe LangeBo ThiessonPublished in: Nature communications (2020)
Acute critical illness is often preceded by deterioration of routinely measured clinical parameters, e.g., blood pressure and heart rate. Early clinical prediction is typically based on manually calculated screening metrics that simply weigh these parameters, such as early warning scores (EWS). The predictive performance of EWSs yields a tradeoff between sensitivity and specificity that can lead to negative outcomes for the patient. Previous work on electronic health records (EHR) trained artificial intelligence (AI) systems offers promising results with high levels of predictive performance in relation to the early, real-time prediction of acute critical illness. However, without insight into the complex decisions by such system, clinical translation is hindered. Here, we present an explainable AI early warning score (xAI-EWS) system for early detection of acute critical illness. xAI-EWS potentiates clinical translation by accompanying a prediction with information on the EHR data explaining it.
Keyphrases
- artificial intelligence
- electronic health record
- liver failure
- big data
- heart rate
- blood pressure
- machine learning
- deep learning
- respiratory failure
- clinical decision support
- drug induced
- aortic dissection
- type diabetes
- heart rate variability
- intensive care unit
- adverse drug
- hepatitis b virus
- healthcare
- blood glucose
- social media
- mechanical ventilation
- resistance training
- acute respiratory distress syndrome
- insulin resistance