Abstract
Early diagnosis and prevention play a crucial role in the treatment of patients with ARDS. The definition of ARDS requires an arterial blood gas to define the ratio of partial pressure of arterial oxygen to fraction of inspired oxygen (PaO2/FiO2 ratio). However, many patients with ARDS do not have a blood gas measured, which may result in under-diagnosis of the condition. Using data from MIMIC-III Database, we propose an algorithm based on patient non-invasive physiological parameters to estimate P/F levels to aid in the diagnosis of ARDS disease. The machine learning algorithm was combined with the filter feature selection method to study the correlation of various noninvasive parameters from patients to identify the ARDS disease. Cross-validation techniques are used to verify the performance of algorithms for different feature subsets. XGBoost using the optimal feature subset had the best performance of ARDS identification with the sensitivity of 84.03%, the specificity of 87.75% and the AUC of 0.9128. For the four machine learning algorithms, reducing a certain number of features, AUC can still above 0.8. Compared to Rice Linear Model, this method has the advantages of high reliability and continually monitoring the development of patients with ARDS.
Highlights
In the data preprocessing process, we found that use of P/F 300 to divide the dataset into positive and negative samples would result in an imbalance in the dataset
The patients were hospitalized in different intensive care units: Cardiac Surgery Recovery Unit (CSRU) (2231, 33.8%), Medical Intensive Care Unit (MICU) (1851, 28.4%), Surgical intensive care unit (SICU) (927, 14.04%), Trauma Surgical Intensive Care Unit (TSICU) (904,13.09%), and Coronary care unit (CCU) (688, 10.42%), the average age of patients was 65.14
By comparing the results of the optimal and minimum feature subsets, we found that the minimum feature subset was determined using the minimum balanced error rate (BER) and standard deviation, but with the use of fewer feature quantities
Summary
The main purpose of this study was to identify ARDS by monitoring P/F values through a variety of noninvasive parameters
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