Critical Correlation of Predictors for an Efficient Risk Prediction Framework of ICU Patient Using Correlation and Transformation of MIMIC-III Dataset

Various predictive frameworks have evolved over the last decade to facilitate the efficient diagnosis of critical diseases in the healthcare sector. Some have been commercialized, while others are still in the research and development stage. An effective early predictive principle must provide more...

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Bibliographic Details
Published in:Data science and engineering 2022-03, Vol.7 (1), p.71-86
Main Authors: Khope, Sarika R., Elias, Susan
Format: Article
Language:English
Subjects:
Algorithm Analysis and Problem Complexity
Artificial Intelligence
Artificial neural networks
Chemistry and Earth Sciences
Commercialization
Computer Science
Cost analysis
Data Mining and Knowledge Discovery
Database Management
Datasets
Diagnosis
Health care facilities
Machine learning
Neural networks
Physics
R&D
Research & development
Research Papers
Statistics for Engineering
Systems and Data Security
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Summary:Various predictive frameworks have evolved over the last decade to facilitate the efficient diagnosis of critical diseases in the healthcare sector. Some have been commercialized, while others are still in the research and development stage. An effective early predictive principle must provide more accurate outcomes in complex clinical data and various challenging environments. The open-source database system medical information mart for intensive care (MIMIC) simplifies all of the attributes required in predictive analysis in this regard. This database contains clinical and non-clinical information on a patient’s stay at a healthcare facility, gathered during their duration of stay. Regardless of the number of focused research attempts employing the MIMIC III database, a simplified and cost-effective computational technique for developing the early analysis of critical problems has not yet been found. As a result, the proposed study provides a novel and cost-effective machine learning framework that evolves into a novel feature engineering methodology using the MIMIC III dataset. The core idea is to forecast the risk associated with a patient’s clinical outcome. The proposed study focused on the diagnosis and clinical procedures and found distinct variants of independent predictors from the MIMIC III database and ICD-9 code. The proposed logic is scripted in Python, and the outcomes of three common machine learning schemes, namely Artificial Neural Networks, K-Nearest Neighbors, and Logistic Regression, have been evaluated. Artificial Neural Networks outperform alternative machine learning techniques when accuracy is taken into account as the primary performance parameter over the MIMIC III dataset.
ISSN:2364-1185
2364-1541
DOI:10.1007/s41019-022-00176-6