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A Machine Learning Model Based on microRNAs for the Diagnosis of Essential Hypertension

Introduction: Hypertension is a major and modifiable risk factor for cardiovascular diseases. Essential, primary, or idiopathic hypertension accounts for 90–95% of all cases. Identifying novel biomarkers specific to essential hypertension may help in understanding pathophysiological pathways and dev...

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Autores principales: Jusic, Amela, Junuzovic, Inela, Hujdurovic, Ahmed, Zhang, Lu, Vausort, Mélanie, Devaux, Yvan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10660456/
https://www.ncbi.nlm.nih.gov/pubmed/37987360
http://dx.doi.org/10.3390/ncrna9060064
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author Jusic, Amela
Junuzovic, Inela
Hujdurovic, Ahmed
Zhang, Lu
Vausort, Mélanie
Devaux, Yvan
author_facet Jusic, Amela
Junuzovic, Inela
Hujdurovic, Ahmed
Zhang, Lu
Vausort, Mélanie
Devaux, Yvan
author_sort Jusic, Amela
collection PubMed
description Introduction: Hypertension is a major and modifiable risk factor for cardiovascular diseases. Essential, primary, or idiopathic hypertension accounts for 90–95% of all cases. Identifying novel biomarkers specific to essential hypertension may help in understanding pathophysiological pathways and developing personalized treatments. We tested whether the integration of circulating microRNAs (miRNAs) and clinical risk factors via machine learning modeling may provide useful information and novel tools for essential hypertension diagnosis and management. Materials and methods: In total, 174 participants were enrolled in the present observational case–control study, among which, there were 89 patients with essential hypertension and 85 controls. A discovery phase was conducted using small RNA sequencing in whole blood samples obtained from age- and sex-matched hypertension patients (n = 30) and controls (n = 30). A validation phase using RT-qPCR involved the remaining 114 participants. For machine learning, 170 participants with complete data were used to generate and evaluate the classification model. Results: Small RNA sequencing identified seven miRNAs downregulated in hypertensive patients as compared with controls in the discovery group, of which six were confirmed with RT-qPCR. In the validation group, miR-210-3p/361-3p/362-5p/378a-5p/501-5p were also downregulated in hypertensive patients. A machine learning support vector machine (SVM) model including clinical risk factors (sex, BMI, alcohol use, current smoker, and hypertension family history), miR-361-3p, and miR-501-5p was able to classify hypertension patients in a test dataset with an AUC of 0.90, a balanced accuracy of 0.87, a sensitivity of 0.83, and a specificity of 0.91. While five miRNAs exhibited substantial downregulation in hypertension patients, only miR-361-3p and miR-501-5p, alongside clinical risk factors, were consistently chosen in at least eight out of ten sub-training sets within the SVM model. Conclusions: This study highlights the potential significance of miRNA-based biomarkers in deepening our understanding of hypertension’s pathophysiology and in personalizing treatment strategies. The strong performance of the SVM model highlights its potential as a valuable asset for diagnosing and managing essential hypertension. The model remains to be extensively validated in independent patient cohorts before evaluating its added value in a clinical setting.
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spelling pubmed-106604562023-10-25 A Machine Learning Model Based on microRNAs for the Diagnosis of Essential Hypertension Jusic, Amela Junuzovic, Inela Hujdurovic, Ahmed Zhang, Lu Vausort, Mélanie Devaux, Yvan Noncoding RNA Article Introduction: Hypertension is a major and modifiable risk factor for cardiovascular diseases. Essential, primary, or idiopathic hypertension accounts for 90–95% of all cases. Identifying novel biomarkers specific to essential hypertension may help in understanding pathophysiological pathways and developing personalized treatments. We tested whether the integration of circulating microRNAs (miRNAs) and clinical risk factors via machine learning modeling may provide useful information and novel tools for essential hypertension diagnosis and management. Materials and methods: In total, 174 participants were enrolled in the present observational case–control study, among which, there were 89 patients with essential hypertension and 85 controls. A discovery phase was conducted using small RNA sequencing in whole blood samples obtained from age- and sex-matched hypertension patients (n = 30) and controls (n = 30). A validation phase using RT-qPCR involved the remaining 114 participants. For machine learning, 170 participants with complete data were used to generate and evaluate the classification model. Results: Small RNA sequencing identified seven miRNAs downregulated in hypertensive patients as compared with controls in the discovery group, of which six were confirmed with RT-qPCR. In the validation group, miR-210-3p/361-3p/362-5p/378a-5p/501-5p were also downregulated in hypertensive patients. A machine learning support vector machine (SVM) model including clinical risk factors (sex, BMI, alcohol use, current smoker, and hypertension family history), miR-361-3p, and miR-501-5p was able to classify hypertension patients in a test dataset with an AUC of 0.90, a balanced accuracy of 0.87, a sensitivity of 0.83, and a specificity of 0.91. While five miRNAs exhibited substantial downregulation in hypertension patients, only miR-361-3p and miR-501-5p, alongside clinical risk factors, were consistently chosen in at least eight out of ten sub-training sets within the SVM model. Conclusions: This study highlights the potential significance of miRNA-based biomarkers in deepening our understanding of hypertension’s pathophysiology and in personalizing treatment strategies. The strong performance of the SVM model highlights its potential as a valuable asset for diagnosing and managing essential hypertension. The model remains to be extensively validated in independent patient cohorts before evaluating its added value in a clinical setting. MDPI 2023-10-25 /pmc/articles/PMC10660456/ /pubmed/37987360 http://dx.doi.org/10.3390/ncrna9060064 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Jusic, Amela
Junuzovic, Inela
Hujdurovic, Ahmed
Zhang, Lu
Vausort, Mélanie
Devaux, Yvan
A Machine Learning Model Based on microRNAs for the Diagnosis of Essential Hypertension
title A Machine Learning Model Based on microRNAs for the Diagnosis of Essential Hypertension
title_full A Machine Learning Model Based on microRNAs for the Diagnosis of Essential Hypertension
title_fullStr A Machine Learning Model Based on microRNAs for the Diagnosis of Essential Hypertension
title_full_unstemmed A Machine Learning Model Based on microRNAs for the Diagnosis of Essential Hypertension
title_short A Machine Learning Model Based on microRNAs for the Diagnosis of Essential Hypertension
title_sort machine learning model based on micrornas for the diagnosis of essential hypertension
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10660456/
https://www.ncbi.nlm.nih.gov/pubmed/37987360
http://dx.doi.org/10.3390/ncrna9060064
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