Hemogram data as a tool for decision-making in COVID-19 management: applications to resource scarcity scenarios

Hemogram data as a tool for decision-making in COVID-19 management: applications to resource scarcity scenarios

Background COVID-19 pandemics has challenged emergency response systems worldwide, with widespread reports of essential services breakdown and collapse of health care structure. A critical element involves essential workforce management since current protocols recommend release from duty for symptom...

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Main Authors: Eduardo Avila, Alessandro Kahmann, Clarice Alho, Marcio Dorn
Format: Article
Language:English
Published: PeerJ Inc. 2020-06-01
Series:PeerJ
Subjects:
COVID-19
Machine learning
Naïve-Bayes
Hemogram
Scarcity
Online Access:https://peerj.com/articles/9482.pdf
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spelling doaj-a1f0af0c834e444d918a815a158abff32020-11-25T03:07:21ZengPeerJ Inc.PeerJ2167-83592020-06-018e948210.7717/peerj.9482Hemogram data as a tool for decision-making in COVID-19 management: applications to resource scarcity scenariosEduardo Avila0Alessandro Kahmann1Clarice Alho2Marcio Dorn3Forensic Genetics Laboratory, School of Health and Life Sciences, Pontifical Catholic University of Rio Grande do Sul, Porto Alegre, RS, BrazilNational Institute of Science and Technology - Forensic Science, Porto Alegre, Rio Grande do Sul, BrazilForensic Genetics Laboratory, School of Health and Life Sciences, Pontifical Catholic University of Rio Grande do Sul, Porto Alegre, RS, BrazilNational Institute of Science and Technology - Forensic Science, Porto Alegre, Rio Grande do Sul, BrazilBackground COVID-19 pandemics has challenged emergency response systems worldwide, with widespread reports of essential services breakdown and collapse of health care structure. A critical element involves essential workforce management since current protocols recommend release from duty for symptomatic individuals, including essential personnel. Testing capacity is also problematic in several countries, where diagnosis demand outnumbers available local testing capacity. Purpose This work describes a machine learning model derived from hemogram exam data performed in symptomatic patients and how they can be used to predict qRT-PCR test results. Methods Hemogram exams data from 510 symptomatic patients (73 positives and 437 negatives) were used to model and predict qRT-PCR results through Naïve-Bayes algorithms. Different scarcity scenarios were simulated, including symptomatic essential workforce management and absence of diagnostic tests. Adjusts in assumed prior probabilities allow fine-tuning of the model, according to actual prediction context. Results Proposed models can predict COVID-19 qRT-PCR results in symptomatic individuals with high accuracy, sensitivity and specificity, yielding a 100% sensitivity and 22.6% specificity with a prior of 0.9999; 76.7% for both sensitivity and specificity with a prior of 0.2933; and 0% sensitivity and 100% specificity with a prior of 0.001. Regarding background scarcity context, resources allocation can be significantly improved when model-based patient selection is observed, compared to random choice. Conclusions Machine learning models can be derived from widely available, quick, and inexpensive exam data in order to predict qRT-PCR results used in COVID-19 diagnosis. These models can be used to assist strategic decision-making in resource scarcity scenarios, including personnel shortage, lack of medical resources, and testing insufficiency.https://peerj.com/articles/9482.pdfCOVID-19Machine learningNaïve-BayesHemogramScarcity
collection DOAJ
language English
format Article
sources DOAJ
author Eduardo Avila
Alessandro Kahmann
Clarice Alho
Marcio Dorn
spellingShingle Eduardo Avila
Alessandro Kahmann
Clarice Alho
Marcio Dorn
Hemogram data as a tool for decision-making in COVID-19 management: applications to resource scarcity scenarios
PeerJ
COVID-19
Machine learning
Naïve-Bayes
Hemogram
Scarcity
author_facet Eduardo Avila
Alessandro Kahmann
Clarice Alho
Marcio Dorn
author_sort Eduardo Avila
title Hemogram data as a tool for decision-making in COVID-19 management: applications to resource scarcity scenarios
title_short Hemogram data as a tool for decision-making in COVID-19 management: applications to resource scarcity scenarios
title_full Hemogram data as a tool for decision-making in COVID-19 management: applications to resource scarcity scenarios
title_fullStr Hemogram data as a tool for decision-making in COVID-19 management: applications to resource scarcity scenarios
title_full_unstemmed Hemogram data as a tool for decision-making in COVID-19 management: applications to resource scarcity scenarios
title_sort hemogram data as a tool for decision-making in covid-19 management: applications to resource scarcity scenarios
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2020-06-01
description Background COVID-19 pandemics has challenged emergency response systems worldwide, with widespread reports of essential services breakdown and collapse of health care structure. A critical element involves essential workforce management since current protocols recommend release from duty for symptomatic individuals, including essential personnel. Testing capacity is also problematic in several countries, where diagnosis demand outnumbers available local testing capacity. Purpose This work describes a machine learning model derived from hemogram exam data performed in symptomatic patients and how they can be used to predict qRT-PCR test results. Methods Hemogram exams data from 510 symptomatic patients (73 positives and 437 negatives) were used to model and predict qRT-PCR results through Naïve-Bayes algorithms. Different scarcity scenarios were simulated, including symptomatic essential workforce management and absence of diagnostic tests. Adjusts in assumed prior probabilities allow fine-tuning of the model, according to actual prediction context. Results Proposed models can predict COVID-19 qRT-PCR results in symptomatic individuals with high accuracy, sensitivity and specificity, yielding a 100% sensitivity and 22.6% specificity with a prior of 0.9999; 76.7% for both sensitivity and specificity with a prior of 0.2933; and 0% sensitivity and 100% specificity with a prior of 0.001. Regarding background scarcity context, resources allocation can be significantly improved when model-based patient selection is observed, compared to random choice. Conclusions Machine learning models can be derived from widely available, quick, and inexpensive exam data in order to predict qRT-PCR results used in COVID-19 diagnosis. These models can be used to assist strategic decision-making in resource scarcity scenarios, including personnel shortage, lack of medical resources, and testing insufficiency.
topic COVID-19
Machine learning
Naïve-Bayes
Hemogram
Scarcity
url https://peerj.com/articles/9482.pdf
work_keys_str_mv AT eduardoavila hemogramdataasatoolfordecisionmakingincovid19managementapplicationstoresourcescarcityscenarios
AT alessandrokahmann hemogramdataasatoolfordecisionmakingincovid19managementapplicationstoresourcescarcityscenarios
AT claricealho hemogramdataasatoolfordecisionmakingincovid19managementapplicationstoresourcescarcityscenarios
AT marciodorn hemogramdataasatoolfordecisionmakingincovid19managementapplicationstoresourcescarcityscenarios
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