EARLY PREDICTION OF UNEXPECTED LATENT SHOCK IN THE EMERGENCY DEPARTMENT USING VITAL SIGNS

Objective/Introduction : Sequential vital-sign information and trends in vital signs are useful for predicting changes in patient state. This study aims to predict latent shock by observing sequential changes in patient vital signs. Methods : The dataset for this retrospective study contained a tota...

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Published in:Shock (Augusta, Ga.) Ga.), 2023-09, Vol.60 (3), p.373-378
Main Authors: Chang, Hansol, Jung, Weon, Ha, Juhyung, Yu, Jae Yong, Heo, Sejin, Lee, Gun Tak, Park, Jong Eun, Lee, Se Uk, Hwang, Sung Yeon, Yoon, Hee, Cha, Won Chul, Shin, Tae Gun, Kim, Taerim
Format: Article
Language:English
Subjects:
Clinical Aspects
Emergency Service, Hospital
Humans
Retrospective Studies
ROC Curve
Shock - diagnosis
Vital Signs
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Summary:Objective/Introduction : Sequential vital-sign information and trends in vital signs are useful for predicting changes in patient state. This study aims to predict latent shock by observing sequential changes in patient vital signs. Methods : The dataset for this retrospective study contained a total of 93,194 emergency department (ED) visits from January 1, 2016, and December 31, 2020, and Medical Information Mart for Intensive Care (MIMIC)-IV-ED data. We further divided the data into training and validation datasets by random sampling without replacement at a 7:3 ratio. We carried out external validation with MIMIC-IV-ED. Our prediction model included logistic regression (LR), random forest (RF) classifier, a multilayer perceptron (MLP), and a recurrent neural network (RNN). To analyze the model performance, we used area under the receiver operating characteristic curve (AUROC). Results : Data of 89,250 visits of patients who met prespecified criteria were used to develop a latent-shock prediction model. Data of 142,250 patient visits from MIMIC-IV-ED satisfying the same inclusion criteria were used for external validation of the prediction model. The AUROC values of prediction for latent shock were 0.822, 0.841, 0.852, and 0.830 with RNN, MLP, RF, and LR methods, respectively, at 3 h before latent shock. This is higher than the shock index or adjusted shock index. Conclusion : We developed a latent shock prediction model based on 24 h of vital-sign sequence that changed with time and predicted the results by individual.
ISSN:1073-2322
1540-0514
DOI:10.1097/SHK.0000000000002181