Multi-Modal Data Analysis for Pneumonia Status Prediction Using Deep Learning (MDA-PSP).
Ruey-Kai SheuLun-Chi ChenChieh-Liang WuMayuresh Sunil PardeshiKai-Chih PaiChien-Chung HuangChia-Yu ChenWei-Cheng ChenPublished in: Diagnostics (Basel, Switzerland) (2022)
Evaluating several vital signs and chest X-ray (CXR) reports regularly to determine the recovery of the pneumonia patients at general wards is a challenge for doctors. A recent study shows the identification of pneumonia by the history of symptoms and signs including vital signs, CXR, and other clinical parameters, but they lack predicting the recovery status after starting treatment. The goal of this paper is to provide a pneumonia status prediction system for the early affected patient's discharge from the hospital within 7 days or late discharge more than 7 days. This paper aims to design a multimodal data analysis for pneumonia status prediction using deep learning classification (MDA-PSP). We have developed a system that takes an input of vital signs and CXR images of the affected patient with pneumonia from admission day 1 to day 3. The deep learning then classifies the health status improvement or deterioration for predicting the possible discharge state. Therefore, the scope is to provide a highly accurate prediction of the pneumonia recovery on the 7th day after 3-day treatment by the SHAP (SHapley Additive exPlanation), imputation, adaptive imputation-based preprocessing of the vital signs, and CXR image feature extraction using deep learning based on dense layers-batch normalization (BN) with class weights for the first 7 days' general ward patient in MDA-PSP. A total of 3972 patients with pneumonia were enrolled by de-identification with an adult age of 71 mean ± 17 sd and 64% of them were male. After analyzing the data behavior, appropriate improvement measures are taken by data preprocessing and feature vectorization algorithm. The deep learning method of Dense-BN with SHAP features has an accuracy of 0.77 for vital signs, 0.92 for CXR, and 0.75 for the combined model with class weights. The MDA-PSP hybrid method-based experiments are proven to demonstrate higher prediction accuracy of 0.75 for pneumonia patient status. Henceforth, the hybrid methods of machine and deep learning for pneumonia patient discharge are concluded to be a better approach.
Keyphrases
- deep learning
- data analysis
- convolutional neural network
- artificial intelligence
- machine learning
- respiratory failure
- case report
- community acquired pneumonia
- emergency department
- healthcare
- breast cancer cells
- magnetic resonance imaging
- high resolution
- intensive care unit
- extracorporeal membrane oxygenation
- depressive symptoms
- acute respiratory distress syndrome
- cell death
- cell cycle arrest
- medical students
- replacement therapy