Machine Learning Algorithms to Predict Mortality of Neonates on Mechanical Intubation for Respiratory Failure.

Jen-Fu Hsu,Ming-Chou Chiang,Chi Yang,Chun-Yuan Lin,Shih-Ming Chu,Rei-Huei Fu,Hsuan-Rong Huang,Hsiao-Chin Wang,Wei-Chao Liao,Ming-Horng Tsai

doi:10.3390/biomedicines9101377

Jen-Fu Hsu, Ming-Chou Chiang + Show 8 more

Open Access

https://doi.org/10.3390/biomedicines9101377

Copy DOI

Abstract

Background: Early identification of critically ill neonates with poor outcomes can optimize therapeutic strategies. We aimed to examine whether machine learning (ML) methods can improve mortality prediction for neonatal intensive care unit (NICU) patients on intubation for respiratory failure. Methods: A total of 1734 neonates with respiratory failure were randomly divided into training (70%, n = 1214) and test (30%, n = 520) sets. The primary outcome was the probability of NICU mortality. The areas under the receiver operating characteristic curves (AUCs) of several ML algorithms were compared with those of the conventional neonatal illness severity scoring systems including the NTISS and SNAPPE-II. Results: For NICU mortality, the random forest (RF) model showed the highest AUC (0.939 (0.921–0.958)) for the prediction of neonates with respiratory failure, and the bagged classification and regression tree model demonstrated the next best results (0.915 (0.891–0.939)). The AUCs of both models were significantly better than the traditional NTISS (0.836 (0.800–0.871)) and SNAPPE-II scores (0.805 (0.766–0.843)). The superior performances were confirmed by higher accuracy and F1 score and better calibration, and the superior and net benefit was confirmed by decision curve analysis. In addition, Shapley additive explanation (SHAP) values were utilized to explain the RF prediction model. Conclusions: Machine learning algorithms increase the accuracy and predictive ability for mortality of neonates with respiratory failure compared with conventional neonatal illness severity scores. The RF model is suitable for clinical use in the NICU, and clinicians can gain insights and have better communication with families in advance.

Highlights

The neonatal intensive care unit (NICU) of Taipei and Linkou Chang Gung Memorial Hospital (CGMH) contain a total of four units and a total capacity of 57 beds equipped with ventilators and 70 beds of special care nurseries
Among neonates with respiratory failure requiring mechanical intubation, 83.1% of instances of respiratory failure occurred in the first week of life, and 65.1% occurred in the first day of life
We found that nearly half of the top 20 features or variables on the importance matrix plot and the Shapley additive explanation (SHAP) summary plot of random forest (RF) were parameters of therapeutic responses, which demonstrated the value of data on the first and second days of respiratory failure and highlighted the importance of the initial therapeutic strategies

Summary

Introduction

Despite innovations in perinatal resuscitation and advances in neonatal care, the in-hospital mortality rate for neonatal intensive care unit (NICU) patients has remained unchanged at 6.4–10.9% over the last decade [1,2,3,4]. Respiratory failure is always the most common issue preceding the final mortality of preterm or critically ill neonates [10,11]. Identification of critically ill neonates with poor outcomes can optimize therapeutic strategies. We aimed to examine whether machine learning (ML) methods can improve mortality prediction for neonatal intensive care unit (NICU) patients on intubation for respiratory failure. Methods: A total of 1734 neonates with respiratory failure were randomly divided into training (70%, n = 1214) and test (30%, n = 520) sets.

Objectives

Methods

Results

Conclusion