ABSTRACT
Background and Objectives: Hydroxychloroquine (HCQ) combined with azithromycin (AZM) has been widely administered to patients with COVID-19 despite scientific controversies. In particular, the potential of prolong cardiac repolarization when using this combination has been discussed. Materials and Methods: We report a pragmatic and simple safety approach which we implemented among the first patients treated for COVID-19 in our center in early 2020. Treatment contraindications were the presence of severe structural or electrical heart disease, baseline corrected QT interval (QTc) > 500 ms, hypokalemia, or other drugs prolonging QTc that could not be interrupted. Electrocardiogram and QTc was evaluated at admission and re-evaluated after 48 h of the initial prescription. Results: Among the 424 consecutive adult patients (mean age 46.3 ± 16.1 years; 216 women), 21.5% patients were followed in conventional wards and 78.5% in a day-care unit. A total of 11 patients (2.6%) had contraindications to the HCQ-AZ combination. In the remaining 413 treated patients, there were no arrhythmic events in any patient during the 10-day treatment regimen. QTc was slightly but statistically significantly prolonged by 3.75 ± 25.4 ms after 2 days of treatment (p = 0.003). QTc prolongation was particularly observed in female outpatients <65 years old without cardiovascular disease. Ten patients (2.4%) developed QTc prolongation > 60 ms, and none had QTc > 500 ms. Conclusions: This report does not aim to contribute to knowledge of the efficacy of treating COVID-19 with HCQ-AZ. However, it shows that a simple initial assessment of patient medical history, electrocardiogram (ECG), and kalemia identifies contraindicated patients and enables the safe treatment of COVID-19 patients with HCQ-AZ. QT-prolonging anti-infective drugs can be used safely in acute life-threatening infections, provided that a strict protocol and close collaboration between infectious disease specialists and rhythmologists are applied.
Subject(s)
COVID-19 , Long QT Syndrome , Adult , Humans , Female , Middle Aged , Aged , Hydroxychloroquine/adverse effects , Azithromycin/adverse effects , SARS-CoV-2 , Long QT Syndrome/chemically induced , COVID-19 Drug Treatment , Electrocardiography/methodsABSTRACT
Purpose of study Since mid-April 2020 in Europe and North America, clusters of pediatric cases with a newly described severe systemic inflammatory response with shock have appeared. Patients had persistent fevers >38.5 C, hypotension, features of myocardial dysfunction, coagulopathy, gastrointestinal symptoms, rash, and elevated inflammatory markers without other causes of infection. The World Health Organization, Centers for Disease Control, and Royal College of Paediatrics associated these symptoms with SARS-CoV-2 as multisystem inflammatory syndrome in children (MIS-C). Cardiac manifestations include coronary artery aneurysms, left ventricular systolic dysfunction evidenced by elevation of troponin-T (TnT) and pro-B-type naturietic peptide (proBNP), and electrocardiogram (ECG) abnormalities. We report the clinical course of three children with MIS-C while focusing on the unique atrioventricular (AV) conduction abnormalities. Case #1:19-year-old previously healthy Hispanic male presented with abdominal pain, fever, and non-bloody diarrhea for three days. He was febrile and hypotensive (80/47 mmHg) requiring fluid resuscitation. Symptoms, lab findings, and a positive COVID-19 antibody test were consistent with MIS-C. Methylprednisolone, intravenous immunoglobulin (IVIG), and enoxaparin were started. He required epinephrine for shock and high flow nasal cannula for respiratory distress. Initial echocardiogram demonstrated a left ventricular ejection fraction (LVEF) of 40% with normal appearing coronaries. Troponin and proBNP were 0.41 ng/mL and proBNP 15,301 pg/mL respectively. ECG showed an incomplete right bundle branch block. He eventually became bradycardic to the 30s-50s and cardiac tracing revealed a complete AV block (figure 1a). Isoproterenol, a B1 receptor agonist, supported the severe bradycardia until the patient progressed to a type 2 second degree AV block (figure 1b). A second dose of IVIG was administered improving the rhythm to a type 1 second degree AV block. An IL-6 inhibitor, tocilizumab was given as the rhythm would not improve, and the patient soon converted to a first-degree AV block. Cardiac magnetic resonance imaging showed septal predominant left ventricular hypertrophy and subepicardial enhancement along the basal inferior/anteroseptal walls typical for myocarditis. Case #2: 9-year-old previously healthy Hispanic male presented after three days of daily fevers, headaches, myalgias, diffuse abdominal pain, and ageusia. He was febrile, tachycardic, and hypotensive (68/39 mmHg). Hypotension of 50s/20s mmHg required 3 normal saline boluses of 20 ml/kg and initiation of an epinephrine drip. Severe hypoxia required endotracheal intubation. After the MIS-C diagnosis was made, he was treated with IVIG, mehtylprednisolone, enoxaparin, aspirin, and ceftriaxone. Due to elevated inflammatory markers by day 4 and patient's illness severity, a 7-day course of anakinra was initiated. Initial echocardiogram showed mild tricuspid and mitral regurgitation with a LVEF of 35-40%. Despite anti-inflammatory therapy, troponin and proBNP were 0.33 ng/mL and BNP of 25,335 pg/mL. A second echocardiogram confirmed poor function so milrinone was started. Only, after two doses of anakinra, LVEF soon normalized. Despite that, he progressively became bradycardic to the 50's. QTc was prolonged to 545 ms and worsened to a max of 592 ms. The aforementioned therapies were continued, and the bradycardia and QTc improved to 405 ms. Patient #3: 9-year-old African American male presented with four days of right sided abdominal pain, constipation, and non-bilious non-bloody emesis. He had a negative COVID test and unremarkable ultrasound of the appendix days prior. His history, elevated inflammatory markers, and positive COVID- 19 antibody were indicative of MIS-C. He was started on the appropriate medication regimen. Initial ECG showed sinus rhythm with normal intervals and echocardiogram was unremarkable. Repeat imaging by day three showed a decreased LVEF of 50%. ECG had since changed to a right bundle branch block. Anakinra as started and steroid dosing was increased. By day 5, he became bradycardic to the 50s and progressed to a junctional cardiac rhythm. Cardiac function normalized by day 7, and anakinra was subsequently stopped. Thereafter, heart rates ranged from 38-48 bpm requiring transfer to the pediatric cardiac intensive care unit for better monitoring and potential isoproterenol infusion. He remained well perfused, with continued medical management, heart rates improved. Methods used Retrospective Chart Review. Summary of results Non-specific T-wave, ST segment changes, and premature atrial or ventricular beats are the most often noted ECG anomalies. All patients initially had normal ECGs but developed bradycardia followed by either PR prolongation or QTc elongation. Two had mild LVEF dysfunction prior to developing third degree heart block and/or a junctional escape rhythm;one had moderate LVEF dysfunction that normalized before developing a prolonged QTc. Inflammatory and cardiac markers along with coagulation factors were the highest early in disease course, peak BNP occurred at approximately hospital day 3-4, and patient's typically had their lowest LVEF at day 5-6. Initial ECGs were benign with PR intervals below 200 milliseconds (ms). Collectively the length of time from initial symptom presentation till when ECG abnormalities began tended to be at day 8-9. Patients similarly developed increased QTc intervals later in the hospitalization. When comparing with the CRP and BNP trends, it appeared that the ECG changes (including PR and QTc elongation) occurred after the initial hyperinflammatory response. Conclusions Although the mechanism for COVID-19 induced heart block continues to be studied, it is suspected to be secondary to inflammation and edema of the conduction tissue. Insufficiency of the coronary arterial supply to the AV node and rest of the conduction system also seems to play a role. Although our patients had normal ECG findings, two developed bundle branch blocks prior to more complex rhythms near the peak of inflammatory marker values. Based on the premise that MIS-C is a hyperinflammatory response likely affecting conduction tissue, our group was treated with different regimens of IVIG, steroids, anakinra, and/or tocilizumab. Anakinra, being an IL-1 inhibitor, has been reported to dampen inflammation in viral myocarditis and tocilizumab has improved LVEF in rheumatoid arthritis patients. Based on our small case series, patient's with MISC can have AV nodal conduction abnormalities. The usual cocktail of IVIG and steroids helps;however, when there are more serious cases of cardiac inflammation, adjuvant immunosuppresants like anakinra and toculizumab can be beneficial. (Figure Presented).
ABSTRACT
Background: The impact of SARS-CoV-2 infection on intrinsic myocardial conduction continues to be an area of focus amongst the medical community. Our objective was to investigate if specific myocardial conduction abnormalities were independently associated with mortality in patients hospitalized with COVID 19. Method(s): Under IRB exemption, the electronic medical records of COVID-19 patients (N=3840) undergoing index hospitalization were reviewed to extract presentation ECG conduction data, demographics, and laboratory results (within 8h). This patient cohort was then separated into two groups based on mortality vs. no mortality (N=520). Logistical regression was used to test association of ECG conduction intervals with mortality. A subgroup analysis of 651 patients who underwent at least 1 ECG in the 12 months prior to their COVID hospitalization were analyzed to detect statistically significant differences in conduction intervals pre and post SARS-CoV-2 infection. Result(s): According to our nominal logistic fit for hospital mortality, Heart Rate (HR) >100 (p=0.0007;LW 4.14), QRS duration > 120 ms (p=0.0053;LW 2.27), and QTc prolongation (defined as QTc > 450ms in males;QTc > 460ms in females) (p=0.0089;LW 2.04) were independently associated with higher risk of mortality. LogWorth (LW) calculations were included in an effort to estimate the proportional effect each variable has on overall mortality. LW > 2 were shown to be statistically significant with p< 0.05 with HR > 100 (LW 4.14) having the highest proportional effect on mortality followed by QRSd (LW 2.27) then QTc prolongation (LW 2.04). PR interval> 200ms (p=0.30) and QRS axis (p=0.15) were not associated with higher risk of mortality. Our subgroup analysis of the 651 patients mentioned above yielded no statistically significant differences in conduction intervals pre & post SARS-CoV-2 infection. Conclusion(s): : Amongst our patient cohort, HR > 100, QRSd > 120ms, and QTc prolongation (QTc > 450 in males;QTc > 460 in females) were each independently associated with higher risk of mortality in patients hospitalized with COVID 19. Subgroup analysis of 651 patients showed no statistically significant differences in conduction intervals pre and post SARS-CoV-2 infection. These findings support the use of objective ECG data in risk stratifying patients hospitalized with COVID 19.Copyright © 2022
ABSTRACT
Objective: Covid-19 infection has been declared as a pandemic disease by the World Health Organization (WHO) and has been associated with increased morbidity and mortality. More than 400 million people diagnosed with the disease has been reported until February 2022 [1]. Covid-19 infection mostly progresses with lung involvement and pneumonia, however, its effects on the cardiovascular system are also well-known. Studies have reported that Covid 19 infection can trigger cardiac events such as acute myocardial damage, acute myocarditis, acute coronary syndrome (ACS), ventricular arrhythmias, cardiogenic shock, and cardiac arrest [2]. Electrocardiogram (ECG) is an important tool to diagnose cardiac involvement. QTc interval, QT dispersion, Tp-e interval, Tp-e/QTc ratio are defined as ventricular repolarization parameters and these parameters are associated with increased risk of ventricular arrhythmia [3,4]. In our study, we aimed to evaluate to predict ventricular arrhythmia by ECG in Covid-19 patients. Method(s): Our study is a single-center, cross-sectional study. Patients diagnosed with Covid-19 in our center between July and October 2020 were included. 408 patients with positive SARS-CoV2 PCR test were detected and the ECGs of the patients were recorded at admission and 15 days after symptomatic recovery. After the exclusion criteria, remained 91 patients were analyzed. Conduction parameters (PR and QRS durations) and repolarization parameters (QTc interval, QT dispersion, Tp-e interval and Tp-e/QTc ratio) were evaluated in 12-lead ECG recordings. Result(s): Ninety-one patients with Covid-19 infection were included. The group were consisted of 47 male (52%) and 44 female (48%). The mean age was 50.4 years. As a result of the statistical analysis, no significant difference was observed between the groups in terms of PR interval (142.2+/-21.4 ms vs. 140.1+/-19.0 ms;p=0.312). QRS duration was found significantly higher during active infection (91.4+/-12.2 ms vs. 88.8+/-10.9 ms;p=0.022). The mean QTc duration was detected longer in the first ECG, but no statistically significant difference was observed between the two groups (426.1+/-23.6 ms vs. 422.5+/-26.2 ms;p=0.237). QT dispersion (35.2+/-7.3 ms vs. 27.7+/-7.8 ms;p<0.001), Tp-e interval (86.7+/-10.1 ms vs. 76.1+/-9.9 ms;p<0.001) and Tp-e/QTc ratio (0.204+/-0.026 vs 0.180+/-0.025;p<0.001) were found significantly higher during active infection Conclusion(s): In our study, QRS complex, QT dispersion, Tp-e interval, Tpe/ QTc ratio were significantly higher during active infection. We considered these parameters as a contributor of the increased mortality by inducing ventricular arrhythmia and sudden death in Covid-19 patients during active infection.
ABSTRACT
Background and objective: Prolonged QTc interval on admission and a higher risk of death in SARS-CoV-2 patients have been reported. The long-term clinical impact of prolonged QTc interval is unknown. This study examined the relationship in COVID-19 survivors of a prolonged QTc on admission with long-term adverse events, changes in QTc duration and its impact on 1-year prognosis, and factors associated with a prolonged QTc at follow-up. Methods: We conducted a single-center prospective cohort study of 523 SARS-CoV-2-positive patients who were alive on discharge. An electrocardiogram was taken on these patients within the first 48â h after diagnosis and before the administration of any medication with a known effect on QT interval and repeated in 421 patients 7 months after discharge. Mortality, hospital readmission, and new arrhythmia rates 1 year after discharge were reviewed. Results: Thirty-one (6.3%) survivors had a baseline prolonged QTc. They were older, had more cardiovascular risk factors, cardiac disease, and comorbidities, and higher levels of terminal pro-brain natriuretic peptide. There was no relationship between prolonged QTc on admission and the 1-year endpoint (9.8% vs. 5.5%, p = 0.212). In 84% of survivors with prolonged baseline QTc, it normalized at 7.9 ± 2.2 months. Of the survivors, 2.4% had prolonged QTc at follow-up, and this was independently associated with obesity, ischemic cardiomyopathy, chronic obstructive pulmonary disease, and cancer. Prolonged baseline QTc was not independently associated with the composite adverse event at 1 year. Conclusions: Prolonged QTc in the acute phase normalized in most COVID-19 survivors and had no clinical long-term impact. Prolonged QTc at follow-up was related to the presence of obesity and previously acquired chronic diseases and was not related to 1-year prognosis.
ABSTRACT
Monitoring the clinical condition of the patients and identifying signs of deterioration is one of the traditional roles of nurses. Many of drugs that that are administered everyday by nurses such as macrolides, fluoroquinolones, Imipenem/ cilastatin, citalopram, haloperidol and Piperacillin/Tazobactam are related with QT prolongation on the electrocar-diogram, which cause an increased risk of life-threatening arrhythmias. In light of recent reports on the cardiac risks involved in administering the first drugs proposed for the treatment of COVID-19, nurses can play an important role in measuring the QT interval in each shift. Nurses should be familiar with QT interval measurement and monitoring methods, especially in patients with other risk factors such as age over 68, cardiology history, potassium and magne-sium electrolyte disturbances. Calculating and monitoring the QT interval as another vital sign is crucial for patient safety and can help reduce the risk of life-threatening arrhythmias. © 2022, Hellenic Nurses Association. All rights reserved.
ABSTRACT
Background The incidence of ventricular arrhythmias (VA) in Coronavirus disease 2019 (COVID-19) patients ranges from 1.6 to 5.9%. COVID-19 can trigger a systemic inflammatory response, which may unmask arrhythmias. Here we discuss a challenging case of COVID-19 that manifested as recurrent Torsades de Pointes (TdP). Case A 39-year-old female with no known past medical history presented with a complaint of multiple syncopal episodes in the last two days. Initial electrocardiograms (EKG) showed a heart rate of 62 with frequent premature ventricular contractions (PVCs) and a prolonged corrected QT(QTc) interval of 520ms. Frequent PVCs soon converted to TdP with loss of consciousness which was managed with successful direct current cardioversion (DCCV). However, the patient relapsed into TdP, warranting another successful DCCV. COVID-19 workup came back positive. Electrolytes were within normal limits;however, C-reactive protein (CRP) and troponin T levels were elevated. Decision-making The patient was started on intravenous (IV) magnesium for 24 hours. Following another episode of self-limiting TdP, IV isoproterenol was started, and tocilizumab was given. An echocardiogram showed no evidence of structural heart disease. During the hospital course, telemetry showed PVCs that decreased in frequency paralleled with a decrease in CRP and troponins. Repeat EKGs showed normalization of QTc interval. The patient declined implantable device placement or procedures and was eventually discharged with a heart monitor and a beta blocker. On follow-up, the patient denied any symptoms since the discharge, QTc remained normal, and the heart monitor did not show any VA. Conclusion Management of TdP generally involves magnesium, IV isoproterenol, and transvenous pacing. However, as described in this case, tocilizumab can cause QT interval shortening and a reduction in CRP and cytokine levels and may be beneficial for use in COVID-19 patients with QT prolongation and VA, including TdP. There are no strict guidelines for arrhythmias in COVID-19 patients. Accordingly, more studies need to be done to follow this patient population managed with tocilizumab for their eventual outcomes.Copyright © 2023 American College of Cardiology Foundation
ABSTRACT
Introduction: For detecting myocardial injury in severe and critical COVID-19, the electrocardiogram (ECG) is neither sensitive nor specific;but in a resource-poor environment, it remains relevant. Changes in the ECG can be a potential marker of severe and critical COVID-19 to be used for predicting not only disease severity but also the prognosis for recovery. Method(s): The admitting and interval ECGs of 1,333 COVID-19 patients were reviewed in a two-year, single-center, retrospective cohort study. Each was evaluated for 29 pre-defined ECG patterns under the categories of rhythm, rate, McGinn-White and RV overload patterns, axis and QRS abnormalities, ischemia/infarct patterns, and AV blocks before univariate and multivariate regression analyses for correlation with disease severity;need for advanced ventilatory support;and in-hospital mortality. Result(s): Of the 29 ECG patterns, 18 showed a significant association with the dependent variables on univariate analysis. Multivariate analysis revealed that atrial fibrillation, HR >100 bpm, low QRS voltage, QTc >500msec, diffuse nonspecific T-wave changes, and 'any AMI' ECG patterns correlate with disease severity;need for advanced ventilatory support and in-hospital mortality. S1Q3 and S1Q3T3 increased the odds of critical disease and need for high oxygen requirement by 2.5-3 fold. Fractionated QRS increased odds of advanced ventilatory support. Conclusion(s): The ECG can be useful for predicting the severity and outcome of more than moderate COVID-19. Their use can facilitate rapid triage, predict disease trajectory, and prompt a decision to intensify therapy early in the disease to make a positive impact on clinical outcomes.
ABSTRACT
Introduction: In December 2019, a novel Coronavirus disease 2019 (COVID-19) was discovered and spread rapidly worldwide. The virus spared no country in its contagiousness. The most common clinical manifestations are respiratory symptoms;but COVID-19 may induce arrhythmias, myocardial infarction, heart failure, and other cardiovascular diseases due to the systemic inflammatory response coupled with localized vascular inflammation. The study aims to provide knowledge about the clinical profile, cardiovascular complications, and clinical outcomes among adult COVID-19 patients admitted to a tertiary hospital. Method(s): This study is a single-centered cross-sectional retrospective study of hospitalized adult COVID-19 patients between March 2020 to May 2022. COVID-19 confirmed patients who met the inclusion criteria with clinical data upon hospitalization are followed up for occurrence of critical illness. The study's primary outcome is determining the demographic profile and clinical course of COVID-19 infection regarding cardiovascular signs and symptoms. Data were retrieved from electronic health records. All outcomes were obtained with standardized data collection forms, and clinical severity was defined based on the National Institute of Health guidelines. Result(s): A total of 1341 hospitalized adult COVID-19 patients were admitted with a mean age of 50.41+/-15.92 years. More males than females account for 60.2% of the total number of patients. Hypertension is the most common comorbidity among COVID-19 patients, comprising 44% of cases, followed by diabetes at 31.9% and dyslipidemia at 11.4%. About 5.4% had coronary artery disease, followed by heart disease 6 (3.6%) and arrhythmia (0.6%). Most COVID-19 patients were smokers 12% and alcoholic beverage drinkers (11.4%). A univariate analysis associated with mortality showed diabetes mellitus (odds ratio 2.7, p = 0.029) and hypertension (odds ratio 3.4, p = 0.11). In the multiple logistic regression analysis, factors' age (OR 1.095, estimate coefficient 0.091, standard error 0.028, p-value <0.05) and admission duration (OR 0.906, estimate coefficient -0.099, standard error 0.028, p-value <0.05) were significantly associated with mortality. Based on the fitted model, older people are more likely to be deceased than younger people. The log odds for mortality increase by 0.091 units for each year. During hospital admission, 24.43% of patients developed acute COVID-19 infection, with an in-hospital casefatality rate of 13.89%. During hospital stay, COVID-19 patients had a significant QTc (.43 +/- 0.04, p'0.001). Patients admitted to Non-ICU had lower QTc (.44 +/- 0.045) compared to ICU patients (.45 +/- .05). Conclusion(s): Myocardial injury and significant cardiovascular risk factors increased mortality among critically-ill COVID-19 patients. Hence, aside from risk factor modification, emphasis on cardiovascular protection should also be considered during treatment for COVID-19.
ABSTRACT
Aim. To establish risk factors for heart failure (HF) in patients with coronavirus disease 2019 (COVID-19). Material and methods. Medical records of 151 patients treated in an infectious disease hospital from November 3, 2020 to February 2, 2021 with a confirmed diagnosis of COVID-19 were retrospectively selected. The collection of clinical, history and laboratory data were carried out by analyzing electronic medical records. We analyzed information on age, sex, body mass index, smoking, and comorbidities. Following laboratory studies were analyzed: complete blood count, biochemical blood tests, coagulation profile, acute phase proteins (C-reactive protein (CRP), ferritin, lactate dehydrogenase (LDH)), procalcitonin. The diagnosis of HF was confirmed by clinical performance, echocardiography, and elevated levels of the N-terminal pro-brain natriuretic peptide (NT-proBNP). The risk of HF was taken as the endpoint of the study. Results. The studied sample of patients was divided into two groups depending on HF: the 1st group included 46 patients with HF, the 2nd group - 105 patients without HF. The median age was 66,2 (50-92) years (women, 91 (60,3%)). Laboratory indicators, such as the levels of CRP, LDH, procalcitonin, creatinine, bilirubin, differed significantly from each other, and the median values were higher in patients with HF. The neutrophil-to-lymphocyte ratio (NLR) showed significant intergroup differences: in the group of patients with HF, the median was 4,97% vs 3,62% (p=0,011) in the group of patients without HF. There were following most significant predictors increasing the HF risk: age >=66 years (odds ratio, 8,038, p<0,001), procalcitonin level, which increases the HF risk in patients by 3,8 times (p<0,001), NLR >=4,11% (p=0,010), thrombocytopenia <=220x109/l (p=0,010), history of chronic kidney disease (CKD) (p=0,018). Conclusion. The following predictors of HF were established: age >=66 years, procalcitonin >=0,09 ng/ml, NLR >=4,11%, thrombocytopenia <=220x109/l, history of CKD, LDH >=685 U/l and creatinine >=102 micromol/l, international normalized ratio >=1,19, QTc interval >=407,5 ms, bilirubin <=10,7 micromol/l. It is worth noting that the best accuracy values are demonstrated by the Random Forest algorithm (88,5% on the validation set), but the mathematical model of the neural network turned out to be the most sensitive (90,0% on the validation set).Copyright © 2023, Silicea-Poligraf. All rights reserved.
ABSTRACT
Aim. To establish risk factors for heart failure (HF) in patients with coronavirus disease 2019 (COVID-19). Material and methods. Medical records of 151 patients treated in an infectious disease hospital from November 3, 2020 to February 2, 2021 with a confirmed diagnosis of COVID-19 were retrospectively selected. The collection of clinical, history and laboratory data were carried out by analyzing electronic medical records. We analyzed information on age, sex, body mass index, smoking, and comorbidities. Following laboratory studies were analyzed: complete blood count, biochemical blood tests, coagulation profile, acute phase proteins (C-reactive protein (CRP), ferritin, lactate dehydrogenase (LDH)), procalcitonin. The diagnosis of HF was confirmed by clinical performance, echocardiography, and elevated levels of the N-terminal pro-brain natriuretic peptide (NT-proBNP). The risk of HF was taken as the endpoint of the study. Results. The studied sample of patients was divided into two groups depending on HF: the 1st group included 46 patients with HF, the 2nd group - 105 patients without HF. The median age was 66,2 (50-92) years (women, 91 (60,3%)). Laboratory indicators, such as the levels of CRP, LDH, procalcitonin, creatinine, bilirubin, differed significantly from each other, and the median values were higher in patients with HF. The neutrophil-to-lymphocyte ratio (NLR) showed significant intergroup differences: in the group of patients with HF, the median was 4,97% vs 3,62% (p=0,011) in the group of patients without HF. There were following most significant predictors increasing the HF risk: age >=66 years (odds ratio, 8,038, p<0,001), procalcitonin level, which increases the HF risk in patients by 3,8 times (p<0,001), NLR >=4,11% (p=0,010), thrombocytopenia <=220x109/l (p=0,010), history of chronic kidney disease (CKD) (p=0,018). Conclusion. The following predictors of HF were established: age >=66 years, procalcitonin >=0,09 ng/ml, NLR >=4,11%, thrombocytopenia <=220x109/l, history of CKD, LDH >=685 U/l and creatinine >=102 micromol/l, international normalized ratio >=1,19, QTc interval >=407,5 ms, bilirubin <=10,7 micromol/l. It is worth noting that the best accuracy values are demonstrated by the Random Forest algorithm (88,5% on the validation set), but the mathematical model of the neural network turned out to be the most sensitive (90,0% on the validation set).Copyright © 2023, Silicea-Poligraf. All rights reserved.
ABSTRACT
Background: Prolonged QT interval (QTc) can be a serious adverse event from SARS-CoV-2 infection and associated treatment, including remdesivir. Methods: We present a case of a 55-year-old woman with COVID-19 pneumonia who was treated with remdesivir. The QTc on admission was 483 ms. After three doses of remdesivir, she had an episode of non-sustained ventricular tachycardia. Repeat QTc was significantly prolonged at 609 ms. She experienced a polymorphic ventricular tachycardic cardiac arrest the next morning, thought to be secondary to torsades de pointes. Results: Transthoracic echocardiogram showed normal biventricular function. Electrolytes were within normal limits. In the absence of other QTc-prolonging medications, remdesivir was thought to be inciting agent. Following discontinuation of remdesivir, the patient's QTc returned to baseline. Conclusions: There is a risk for cardiac events from QTc prolongation effects of SARS-CoV-2 infection and associated treatment. We recommend pharmacological profile review and cardiac monitoring for patients receiving remdesivir.
Historique: Un intervalle QT prolongé (QTc) peut être un grave effet indésirable de l'infection par le SRAS-CoV-2 et du traitement qui s'y associe, y compris le remdésivir. Méthodologie: Les chercheurs présentent le cas d'une femme de 55 ans atteinte d'une pneumonie à COVID-19 qui a reçu un traitement au remdésivir. Son QTc à l'admission était de 483 ms. Après trois doses de remdésivir, elle a subi un épisode de tachycardie ventriculaire non soutenue. La reprise du QTc était particulièrement prolongé, à 609 ms. La patiente a vécu un arrêt cardiaque causé par une tachycardie ventriculaire polymorphe le lendemain matin, considéré comme secondaire à des torsades de pointe. Résultats: L'échocardiogramme transthoracique a révélé une fonction biventriculaire normale. Les électrolytes se situaient dans les limites normales. En l'absence d'autres médicaments pour prolonger le QTc, le remdésivir a été présumé comme responsable. Après l'arrêt de ce médicament, le QTc de la patiente est redevenu normal. Conclusions: La prolongation du QTc découlant de l'infection par le SRAS-CoV-2 et du traitement qui s'y associe entraîne un risque d'arrêt cardiaque. Il est recommandé de procéder à une évaluation du profil pharmacologique et d'assurer la surveillance cardiaque des patients qui reçoivent du remdésivir.
ABSTRACT
OBJECTIVES: Hydroxychloroquine is recommended for all patients with systemic lupus erythematous, but reports of cardiac toxicity in SARS CoV-2 patients raised concerns. We aimed to study the relationship between hydroxychloroquine blood levels and QTc intervals. METHODS: Cohort 1 is a retrospective review of 90 SLE patients with data collected regarding demographics, QTc interval and chronic kidney disease (CKD). Cohort 2 is a prospective study of 84 SLE patients with data collected regarding demographics, dose of HCQ, duration of HCQ treatment, presence of echocardiographic abnormalities, and CKD simultaneous with whole blood HCQ levels measured by high performance liquid chromatography. Statistical analysis utilized one way ANOVA, Pearson's correlation coefficient and t test. RESULTS: In the retrospective cohort there was no significant difference in mean QTc based on 75 HCQ-treated (437.91 +/- 20.02) as compared with 15 untreated (434.6 +/- 27.49) patients. In patients with CKD mean QTc in HCQ users (448 +/- 23.37) as compared with non-users (444.5 +/- 24.61) was also with no significant difference. In the prospective cohort HCQ levels did not correlate with QTc interval (r = 0.017) and this applied regardless of dose prescribed (r = 0.113 for 400 mg and r = 0.06 for 200 mg), duration of exposure (p= 0.36 for 0-5, 5-10, or > 10 years), CKD (r = 0.482) or underlying cardiac abnormalities (r = 0.430). CONCLUSION: This is the first study relying on measured blood levels demonstrating the absence of clinically consequential increase in QTc levels in HCQ treated SLE patients.
ABSTRACT
COVID-19 causes severe illness that results in morbidity and mortality. Electrocardiographic features, including QT prolongation, have been associated with poor acute outcomes; data on the medium-term outcomes remain scarce. This study evaluated the 1-year outcomes of patients who survived the acute COVID-19 infection. METHODS AND MATERIALS: Data of the 159 patients who survived the COVID-19 illness during the first wave (1 March 2020-18 May 2020) were collected. Patient demographics, laboratory findings and electrocardiography data were evaluated. Patients who subsequently died within 1-year of the index illness were compared to those who remained well. RESULTS: Of the 159 patients who had survived the index illness, 28 (17.6%) subsequently perished within 1-year. In comparison to the patients that were alive after 1-year, the deceased were older (68 vs. 83 years, p < 0.01) and equally male (60.4% vs. 53.6%, p = 0.68), with a similar proportion of hypertension (59.5% vs. 57.1%, p = 0.68), diabetes (25.2% vs. 39.2%, p = 0.096) and ischaemic heart disease (11.5% vs. 7.1%, p = 0.54). The QTc interval for the alive and deceased patients shortened by a similar degree from the illness to post-COVID (-26 ± 33.5 vs. -20.6 ± 30.04 milliseconds, p = 0.5); the post-COVID R-R interval was longer in the alive patients compared to the deceased (818.9 ± 169.3 vs. 761.1 ± 61.2 ms, p = 0.02). A multivariate Cox regression analysis revealed that age (HR1.098 [1.045-1.153], p < 0.01), diabetes (HR3.972 [1.47-10.8], p < 0.01) and the post-COVID R-R interval (HR0.993 [0.989-0.996], p < 0.01) were associated with 1-year mortality. CONCLUSIONS: The COVID-19-associated mortality risk extends to the post-COVID period. The QTc does recover following the acute illness and is not associated with outcomes; the R-R interval is a predictor of 1-year mortality.
ABSTRACT
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), which causes coronavirus disease 2019 (COVID-19), is known to affect the cardiovascular system. Cardiac manifestations in COVID-19 can be due to direct damage to the myocardium and conduction system as well as by the disease's effect on the various organ systems. These manifestations include acute coronary syndrome, ST- segment elevations, cardiomyopathy, and dysrhythmias. Some of these dysrhythmias can be detrimental to the patient. Therefore, it is important for the emergency physician to be aware of the different arrhythmias associated with COVID-19 and how to manage them. This narrative review discusses the pathophysiology underlying the various arrhythmias associated with COVID-19 and their management considerations.
Subject(s)
COVID-19 , Humans , COVID-19/complications , COVID-19/therapy , SARS-CoV-2 , Arrhythmias, Cardiac/therapy , Arrhythmias, Cardiac/complications , Heart Conduction SystemABSTRACT
Background: For rheumatoid arthritis (RA) patients, hydroxychloroquine (HCQ) is a staple treatment. Concerns about its cardiovascular safety have been raised after reports of its use and fatal arrhythmias in individuals with coronavirus illness 19. Aims and objectives: To examine the relationship between HCQ use and corrected QT (QTc) length in RA patients. Material(s) and Method(s): Hundred subjects (age >= 18 years) were studied after dividing them in to Cases (n=50;patients with RA taking HCQ) and Control (n=50;patients without RA not taking HCQ) at the Department of General Medicine of a tertiary care center in Madhya Pradesh. Patient characteristics and laboratory measures, including rheumatoid factor hemoglobin, white blood cells count, platelets, erythrocyte sedimentation rate (ESR), random blood sugar, urea, Creatinine, SGOT, SGPT, serum electrolytes, calcium, and magnesium level, were assessed. QTc length was obtained with the help of 12-lead ECG. Result(s): Incidence of QTc prolongation in patients with RA was 11%. Odds for prolonged QTc interval for patients with age >50 years was 3.500 (95% CI = 0.865-14.155), serum calcium <8 was 2.400 (95% CI = 0.540-10.666), and ESR >20 was 0.756 (95% CI = 0.640-0.892). A significant positive correlation was obtained between prolonged QTc with age (r=0.283;p=0.046). Conclusion(s): There is a significant increase in risk of QTc prolongation with the use of HCQ in patients with RA. Copyright © 2022, Dr Yashwant Research Labs Pvt Ltd. All rights reserved.
ABSTRACT
The assessment of the prognostic value of the admission electrocardiography (ECG) (specifically of the duration of the PR and QTc intervals, the QRS complex and the heart rate [HR]) in COVID-19 patients on the basis of nine observational studies (n=1,424) indicates that relatively long duration of the QTc interval and QRS complex, as well as higher HR, are linked to a severe course of COVID-19, which may be of use in risk stratification. Since there are important differences in suggested indicators of adverse prognosis between observational studies, further research is necessary to clarify high-risk criteria.
ABSTRACT
Background Objective: What is the association between COVID-19 infection and QTc changes? Coronavirus SARS-COV2 uses angiotensin-converting enzyme receptors 2 (ACE2) on host cells to enter into human cells. These receptors are expressed on the heart cells among other major cells. This is one of the most accepted theories for direct cardiac cell injury of COVID-19disease and associated cardiorespiratory manifestations. COVID-19 infection leads to unstable myocardial cell membranes, by causing hypoxia, myocarditis, myocardial ischemia, and abnormal host immune response. This is the main reason behind Arrhythmia and EKG changes during COVID19 infection. But the specific effect on QTc has not been studied well so far, so our research try to study this connection. Method(s): This is an observational retrospective hospital chart review involving 320 adult participants diagnosed with COVID-19 infection at our facility. After applying the exclusion criteria, 130 participants remained, who were distributed into two groups. One group with long QTc and one group with normal QTc. Data was collected and demographics were recorded using Excel and SPSS, then compared using a student's t-test for independent groups. The quantitative data are summarized by the mean and standard deviation (SD). Statistical significance was taken as P <0.05. Result(s): A total of 63 participants (48.4% of total 130 participants) met the criteria for long QTc, and a total of 67 participants(51.5%) had normal QTc (P < 0.001). There was no statistically significant mortality outcome (0.8% vs. 3.8%, P = 0.21). Conclusion(s): Our study showed 48.4% participants having an increase in QTc during COVID-19 infection, (20% of 320 total admissions). This observation is very important to help healthcare providers to gaina better understanding of this disease.
ABSTRACT
Background and Aim: Multi-system inflammatory syndrome in chil-dren (MISC) associated with COVID-19 has been described as a potentially life-threatening disease. In this study, we aimed to evaluate cardiovascular findings in children diagnosed with MISC at initial presentation and follow up. Method(s): Between November 2020 and November 2021, 35 children diagnosed with MISC based on WHO criteria were evaluated in this retrospective study.Cardiac markers, electrocardi-ography and echocardiography were performed in all cases at pre-sentation. Cardiac evaluation were repeated at the mean of 10th week after discharge(range:5 to 33weeks). Result(s): At this period, 633 children had positive PCR test of Covid-19. The freguency of MISC was 5.5% in our cohort. The median age was 9 years at diagnosis. Comorbid diseases were found in 20% cases, but none had preexisting heart disease. All patients had high grade fever and laboratory evidence of hyperin-flammation. Most cases had mild form disease, however 12 patients had been hospitalized in ICU median 6 day. 27 cases (77%) had cardiovascular involvement.Kawasaki-like findings were found in 10 patients and 5 cases were presented with shock(Figure-1) Echocardiography;Left ventricular (LV)systolic dysfunction (EFlt;57%) was detected in 11 cases (31.4%) and coronary artery (CA) dilatation(z scoregt;2)was found in five(14.2%) cases. Pericardial effusion was seen in 12 cases. Electrocardiography: Sinus tachycardia was the most common finding. 2 cases had pro-longed QTc interval and four cases had T wave alterations. Four cases had experienced complex ventricular arrhythmia. Cardiac markers:24 cases had high Pro-BNP level. 18 cases also had high Troponin T levels. Pro-BNP and Troponin T levels were not found to be correlated with LVEF. Only one adolescent boy who had severe cardiac dysfunction died during the acute period. Followup:There were two cases with persistent cardiac symptom, but no case had LV systolic dysfunction. The mean PR intervale was significantly lower than initial measurements. The mean of QT and QTc at follow up were not different from basal measurements.The mean LVEF was significantly higher than the initial levels. The basal CA z scores normalized at followup. Conclusion(s): MISC is characterized predominantly by cardio-vascular system involvement, but the children with MISC have good cardiac outcomes at short term follow up.
ABSTRACT
Background and Aim: Cardiac involvement in multisystem inflam-matory syndrome in children (MIS-C) associated with Coronavirus 2019 disease (COVID-19) is often observed with high risk of hearth failure. Early diagnosis and treatment are man-datory for a good outcome. The aim is to describe cardiovascular involvement, management and early outcome for patients with MIS-C and to analyze the differences in cardiovascular manifesta-tions between two groups: younger and older than 6 years old. Method(s): This retrospective observational study describes cardio-vascular clinical manifestations, laboratory findings, cardiac imag-ing, according to different age groups, and treatment in patients with diagnosis of MIS-C admitted to the Pediatric Istitute Giannina Gaslini between March 2020 and September 2021. Result(s): We collected 25 patients. Median age at onset of symptoms was 5 years old (interquartile range IQR, 3-12 y), 12 boys (56%). Immunoglobulin G antibodies were positive in 70% cases, Polymerase chain reaction (PCR) nasal/throat swab test for COVID-19 was positive in 15% cases, at the admission. The remaining cases had close contacts of COVID-19 positive cases. Predominant coronary artery abnormalities were observed in age group up to 6 years old (n.13) with development of small and medium aneurysms in half of cases and low rate of mild ventricular dysfunction. While children between 7-18 years of age present myopericardial involvement with ventricular dysfunction in 67% cases, from mild to moderate. Only two cases of transient coronary dilatation. Frequent electrocardiogram abnormalities: ventricular repolarization anomalies and reversibile QTc prolon-gation interval. Laboratory findings showed rised inflammatory markers and only mild elevation of cardiac enzymes compared to an early and significant NT-pro-BNP increase. All patients were treated with intravenous immunoglobulin and corticosteroids. Some cases needed anakinra. Aspirin and heparin was adminis-trated. No inotropes requied but only cardioprotective therapy. No need of Intensive Care Unit. Conclusion(s): This case-series shows the frequent cardiovascular involvement in MIS-C with a peculiar distribution, according to differents age's group: coronary artery anomalies in young ones, myopericardial disease in old ones. Prompt multi target anti-inflammatory therapy could have an effect to favorable outcome.