Predicting rapid progression phases in glaucoma using a soft voting ensemble classifier exploiting Kalman filtering

AbstractIn managing patients with chronic diseases, such as open angle glaucoma (OAG), the case treated in this paper, medical tests capture the disease phase (e.g. regression, stability, progression, etc.) the patient is currently in. When medical tests have low residual variability (e.g. empirical difference between the patient ’s true and recorded value is small) they can effectively, without the use of sophisticated methods, identify the patient’s current disease phase; however, when medical tests have moderate to high residual variability this may not be the case. This paper presents a framework for handling the lat ter case. The framework presented integrates the outputs of interacting multiple model Kalman filtering with supervised learning classification. The purpose of this integration is to estimate the true values of patients’ disease metrics by allowing for rapid and non-rapid phases; and dynamically a dapting to changes in these values over time. We apply our framework to classifying whether a patient with OAG will experience rapid progression over the next two or three years from the time of classification. The performance (AUC) of our model increased by approximately 7% (increased from 0.752 to 0.819) when the Kalman filtering results were incorporated as additional features in the supervised learning model. These results suggest the combination of filters and statistical learning methods in clinical health has significant benefits. Although this paper ap...
Source: Health Care Management Science - Category: Hospital Management Source Type: research