Exploring post-COVID-19 health effects and features with advanced machine learning techniques

Exploring post-COVID-19 health effects and features with advanced machine learning techniques

Abstract COVID-19 is an infectious respiratory disease that has had a significant impact, resulting in a range of outcomes including recovery, continued health issues, and the loss of life. Among those who have recovered, many experience negative health effects, particularly influenced by demographi...

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Bibliographic Details
Main Authors: Muhammad Nazrul Islam, Md Shofiqul Islam, Nahid Hasan Shourav, Iftiaqur Rahman, Faiz Al Faisal, Md Motaharul Islam, Iqbal H. Sarker
Format: Article
Language:English
Published: Nature Portfolio 2024-04-01
Series:Scientific Reports
Subjects:
COVID-19
Pandemic
Machine learning
Statistical analysis
Chi-square
Pearson’s coefficient
Online Access:https://doi.org/10.1038/s41598-024-60504-w
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Summary:Abstract COVID-19 is an infectious respiratory disease that has had a significant impact, resulting in a range of outcomes including recovery, continued health issues, and the loss of life. Among those who have recovered, many experience negative health effects, particularly influenced by demographic factors such as gender and age, as well as physiological and neurological factors like sleep patterns, emotional states, anxiety, and memory. This research aims to explore various health factors affecting different demographic profiles and establish significant correlations among physiological and neurological factors in the post-COVID-19 state. To achieve these objectives, we have identified the post-COVID-19 health factors and based on these factors survey data were collected from COVID-recovered patients in Bangladesh. Employing diverse machine learning algorithms, we utilised the best prediction model for post-COVID-19 factors. Initial findings from statistical analysis were further validated using Chi-square to demonstrate significant relationships among these elements. Additionally, Pearson’s coefficient was utilized to indicate positive or negative associations among various physiological and neurological factors in the post-COVID-19 state. Finally, we determined the most effective machine learning model and identified key features using analytical methods such as the Gini Index, Feature Coefficients, Information Gain, and SHAP Value Assessment. And found that the Decision Tree model excelled in identifying crucial features while predicting the extent of post-COVID-19 impact.
ISSN:2045-2322

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