Performance evaluation of selected decision tree algorithms for COVID-19 diagnosis using routine clinical data

Shanbehzadeh, Mostafa; Kazemi-Arpanahi, Hadi; Nopour, Raoof

doi:10.47176/mjiri.35.29

Cited by 10 publications

(9 citation statements)

References 34 publications

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“…According to the C4.5 decision tree, "contact with a person who has COVID-19" was determined as the first divider in identifying the infected person. Among the research that have been done with the aim of diagnosing COVID-19 based on ML algorithms in Iran, we can mention the research of Shanbehzadeh M et al ( 37 ). In order to select the best detection model, they compared 7 decision tree algorithms.…”

Section: Discussionmentioning

confidence: 99%

“…But in Shanbehzadeh M's research, "the lung lesion existence" is the most important factor identified. One of the strengths of our research compared to( 37 )is high volume dataset. Also, since our dataset is related to a province (Fars province), our results have more integrity than Shanbehzadeh M's research, which used only the data from one hospital.…”

Section: Discussionmentioning

confidence: 99%

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Supervised Machine Learning Approach to COVID-19 Detection Based on Clinical Data

Yazdani

Zahmatkeshan

Ravangard

et al. 2022

Med. J. Islam. Republ. Iran

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Background: The new coronavirus has been spreading since the beginning of 2020, and many efforts have been made to develop vaccines to help patients recover. It is now clear that the world needs a rapid solution to curb the spread of COVID-19 worldwide with non-clinical approaches such as artificial intelligence techniques. These approaches can be effective in reducing the burden on the health care system to provide the best possible way to diagnose the COVID-19 epidemic. This study was conducted to use Machine Learning (ML) algorithms for the early detection of COVID-19 in patients. Methods: This retrospective study used data from hospitals affiliated with Shiraz University of Medical Sciences in Iran. This dataset was collected in the period March to October 2020 andcontained 10055 cases with 63 features. We selected and compared six algorithms: C4.5, support vector machine (SVM), Naive Bayes, logistic Regression (LR), Random Forest, and K-Nearest Neighbor algorithm using Rapid Miner software. The performance of algorithms was measured using evaluation metrics, such as precision, recall, accuracy, and f-measure. Results: The results of the study show that among the various used classification methods in the diagnosis of coronavirus, SVM (93.41% accuracy) and C4.5 (91.87% accuracy) achieved the highest performance. According to the C4.5 decision tree, "contact with a person who has COVID-19" was considered the most important diagnostic criterion based on the Gini index. Conclusion: We found that ML approaches enable a reasonable level of accuracy in the diagnosis of COVID-19.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Supervised Machine Learning Approach to COVID-19 Detection Based on Clinical Data

Yazdani

Zahmatkeshan

Ravangard

et al. 2022

Med. J. Islam. Republ. Iran

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“…Brinati et al [9] proposed ML model to detect the infection of COVID-19 based on routine blood, with accuracies ranging from 82 to 86%. Some studies have explored robust ML models based on patients' conventional clinical data, disease history, epidemiological factors and other physiological characteristics to diagnose covid-19 [10,11]. A study investigated the value of Chest-tomography (CT) images for covid-19 severity assessment and clinical outcome prediction [12].…”

Section: Introductionmentioning

confidence: 99%

Machine learning to analyse omic-data for COVID-19 diagnosis and prognosis

et al. 2023

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Background With the global spread of COVID-19, the world has seen many patients, including many severe cases. The rapid development of machine learning (ML) has made significant disease diagnosis and prediction achievements. Current studies have confirmed that omics data at the host level can reflect the development process and prognosis of the disease. Since early diagnosis and effective treatment of severe COVID-19 patients remains challenging, this research aims to use omics data in different ML models for COVID-19 diagnosis and prognosis. We used several ML models on omics data of a large number of individuals to first predict whether patients are COVID-19 positive or negative, followed by the severity of the disease. Results On the COVID-19 diagnosis task, we got the best AUC of 0.99 with our multilayer perceptron model and the highest F1-score of 0.95 with our logistic regression (LR) model. For the severity prediction task, we achieved the highest accuracy of 0.76 with an LR model. Beyond classification and predictive modeling, our study founds ML models performed better on integrated multi-omics data, rather than single omics. By comparing top features from different omics dataset, we also found the robustness of our model, with a wider range of applicability in diverse dataset related to COVID-19. Additionally, we have found that omics-based models performed better than image or physiological feature-based models, proving the importance of the omics-based dataset for future model development. Conclusions This study diagnoses COVID-19 positive cases and predicts accurate severity levels. It lowers the dependence on clinical data and professional judgment, by leveraging the utilization of state-of-the-art models. our model showed wider applicability across different omics dataset, which is highly transferable in other respiratory or similar diseases. Hospital and public health care mechanisms can optimize the distribution of medical resources and improve the robustness of the medical system.

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“…Decision trees are efficient and reliable decision‐making algorithms, because they are characterized by high classification accuracy and simple visualization of collected data. 10 , 11 …”

Section: Introductionmentioning

confidence: 99%

“…The input variables can be continuous and categorical, and based on them, the final classification is made. Decision trees are efficient and reliable decision‐making algorithms, because they are characterized by high classification accuracy and simple visualization of collected data 10,11 …”

Section: Introductionmentioning

confidence: 99%

Hemogram‐based decision tree models for discriminating COVID‐19 from RSV in infants

Dobrijević

Andrijević

Antić

et al. 2023

Clinical Laboratory Analysis

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Objective Decision trees are efficient and reliable decision‐making algorithms, and medicine has reached its peak of interest in these methods during the current pandemic. Herein, we reported several decision tree algorithms for a rapid discrimination between coronavirus disease (COVID‐19) and respiratory syncytial virus (RSV) infection in infants. Methods A cross‐sectional study was conducted on 77 infants: 33 infants with novel betacoronavirus (SARS‐CoV‐2) infection and 44 infants with RSV infection. In total, 23 hemogram‐based instances were used to construct the decision tree models via 10‐fold cross‐validation method. Results The Random forest model showed the highest accuracy (81.8%), while in terms of sensitivity (72.7%), specificity (88.6%), positive predictive value (82.8%), and negative predictive value (81.3%), the optimized forest model was the most superior one. Conclusion Random forest and optimized forest models might have significant clinical applications, helping to speed up decision‐making when SARS‐CoV‐2 and RSV are suspected, prior to molecular genome sequencing and/or antigen testing.

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Performance evaluation of selected decision tree algorithms for COVID-19 diagnosis using routine clinical data

Cited by 10 publications

References 34 publications

Supervised Machine Learning Approach to COVID-19 Detection Based on Clinical Data

Supervised Machine Learning Approach to COVID-19 Detection Based on Clinical Data

Machine learning to analyse omic-data for COVID-19 diagnosis and prognosis

Hemogram‐based decision tree models for discriminating COVID‐19 from RSV in infants

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