Electrocardiographic manifestations of COVID-19: Effect on cardiac activation and repolarization

Prolonged QT intervals are reported in patients with COVID-19. Additionally, virus particles in heart tissue and abnormal troponin levels have been reported. Consequently, we hypothesize that cardiac electrophysiologic abnormalities may be associated with COVID-19. This is a retrospective study betw...

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Published inEClinicalMedicine Vol. 39; p. 101057
Main Authors Thakore, Avni, Nguyen, James, Pollack, Simcha, Muehlbauer, Stefan, Chi, Benjamin, Knight, Derek, Mehrotra, Bhoomi, Stern, Joshua, Cao, J. Jane, Lucore, Charles, Levine, Joseph
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2021
Elsevier
Subjects
Activation
BNP
Cardiac involvement
COVID-19
Electrocardiogram
Mortality
NTPRO BNP
QRS
QT interval
QTc interval
repolarization
Research Paper
SAR-COV-2
Troponin
QT interval
BNP
Mortality
repolarization
Activation
NTPRO BNP
COVID-19
QTc interval
Troponin
QRS
Electrocardiogram
Cardiac involvement
SAR-COV-2
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Summary:Prolonged QT intervals are reported in patients with COVID-19. Additionally, virus particles in heart tissue and abnormal troponin levels have been reported. Consequently, we hypothesize that cardiac electrophysiologic abnormalities may be associated with COVID-19. This is a retrospective study between March 15th, 2020 and May 30th, 2020 of 828 patients with COVID-19 and baseline ECG. Corrected QT (QTc) and QRS intervals were measured from ECGs performed prior to intervention or administration of QT prolonging drugs. QTc and QRS intervals were evaluated as a function of disease severity (patients admitted versus discharged; inpatients admitted to medical unit vs ICU) and cardiac involvement (troponin elevation >0.03 ng/ml, elevated B-natriuretic peptide (BNP) or NT pro-BNP >500 pg/ml). Multivariable analysis was used to test for significance. Odds ratios for predictors of disease severity and mortality were generated. Baseline QTc of inpatients was prolonged compared to patients discharged (450.1±30.2 versus 423.4±21.7  msec, p<0.0001) and relative to a control group of patients with influenza (p=0.006). Inpatients with abnormal cardiac biomarkers had prolonged QTc and QRS compared to those with normal levels (troponin - QTc: 460.9±34.6 versus 445.3±26.6  msec, p<0.0001, QRS: 98.7±24.6 vs 90.5±16.9  msec, p<0.0001; BNP - QTc: 465.9±33.0 versus 446.0±26.2  msec, p<0.0001, QRS: 103.6±25.3 versus 90.6±17.6 msec, p<0.0001). Findings were confirmed with multivariable analysis (all p<0.05). QTc prolongation independently predicted mortality (8.3% increase in mortality for every 10  msec increase in QTc; OR 1.083, CI [1.002, 1.171], p=0.04). QRS and QTc intervals are early markers for COVID-19 disease progression and mortality. ECG, a readily accessible tool, identifies cardiac involvement and may be used to predict disease course. St. Francis Foundation.
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ISSN:2589-5370
2589-5370
DOI:10.1016/j.eclinm.2021.101057