key: cord-1052456-3wzxc8ch
authors: Mostafavi, Atoosa; Tabatabaei, Seyed Abdol Hussein; Zamani Fard, Somayeh; Majidi, Fatemeh; Mohagheghi, Abbas; Shirani, Shahin
title: The incidence of myopericarditis in patients with COVID-19
date: 2021-08-11
journal: J Cardiovasc Thorac Res
DOI: 10.34172/jcvtr.2021.36
sha: 35889e34b51bb96683e7326107d3fed3f2440c40
doc_id: 1052456
cord_uid: 3wzxc8ch

Introduction: SARS-COV-2 can affect different organ systems, including the cardiovascular system with wide spectrum of clinical presentations including the thrombotic complications, acute cardiovascular injury and myopericarditis. There is limited study regarding COVID-19 and myopericarditis. The aim of this study was to evaluate myopericarditis in patients with definite diagnosis of COVID-19. Methods: In this observational study we analyzed the admitted patients with definite diagnosis of COVID-19 based on positive RT-PCR test. Laboratory data, and ECG changes on days 1-3-5 were analyzed for sign of pericarditis and also QT interval prolongation. Echocardiography was performed on days 2-4 and repeated as necessary, and one month after discharge for possible late presentation of symptom. Any patient with pleuritic chest pain, and pericardial effusion and some rise in cardiac troponin were considered as myopericarditis. Results: A total of 404 patients (18-90 years old, median = 63, 273 males and 131 females) with definite diagnosis of COVID-19 were enrolled in the study. Five patients developed in-hospital pleuritic chest pain with mild left ventricular dysfunction and mild pericardial effusion and diagnosed as myopericarditis, none of them proceed to cardiac tamponade. We found no case of late myopericarditis. Conclusion: Myopericarditis, pericardial effusion and cardiac tamponade are rare complication of COVID-19 with prevalence about 1.2 %, but should be considered as a possible cause of hemodynamic deterioration.

history of pericardial disease, poor echocardiographic image quality, active rheumatological disorders, end stage renal disease and /or glomerular filtration rate (GFR) less than 30 mL/min/1.73m, active cancer and uncontrolled hypothyroidism. The patients were enrolled into the study through consensus method.

Blood sampling was done on the first day to check the following: Complete blood count with differential (CBC with diff), Erythrocyte sedimentation rate (ESR), C-reactive protein (CRP) and Troponin I (TnI).

ECG was taken and analyzed on the days 1, 3, 5 and as necessary and analyzed for any ST_T changes, rhythm abnormality and QT interval duration. Transthoracic echocardiography was performed at days 2-4 and repeated as needed in the case of pleuritic chest pain or hemodynamic compromise, using 5-1 transducer of Sono Site -M-Turbo portable ultrasound system. All alive patients were followed up to one month after discharge by phone call for possible late presentation of symptom and all patients with LV systolic dysfunction and rise in cardiac troponin level , underwent late coronary angiogram or CT-angiography for possible coexistence of coronary artery disease.

Left atrial anteroposterior and left ventricular(LV) diastolic and systolic dimensions were measured from parasternal long axis view and right ventricular(RV) and right atrial (RA)sizes were measured from 4 chamber view accordance to American and European guideline 2015 . 7 LV systolic function was assessed via Simpson method. Pulmonary artery pressure was measured by tricuspid (TV) peak systolic velocity adding to RA pressure. The presence or absence of pericardial effusion was examined from different views. Any patient with pleuritic chest pain, and pericardial effusion and some rise in cardiac troponin were considered as myopericarditis.

The Study was approved by the Ethics committee of Research Department of Tehran university of Medical Science. Categorical variables were expressed as proportion (%) and continuous data as mean ± SD or median as appropriate. For comparing mean in distributed continuous variable, unpaired T-test or the one-way analysis of variance (ANOVA) or χ 2 tests were used. A P-value of less than 0.05 was considered significant. The statistical analyses were performed using the SPSS software, version 22.0 (SPSS, Inc, Chicago, IL).

The prospective study was conducted on 404 patients (273 males and 131 females) with definite diagnosis of COVID-19 based on positive RT-PCR test and variable degree of lung involvement. Patients aged 18-90 years old (mean total age = 58.36 y, mean male age = 59.72 y, mean female age = 57.00 y, median = 63).

160 patients (39.6%) had past history of hypertension (HTN) and 120 patients (29.7%) had previous history of diabetes mellitus.

Four patients had mitral valve prosthesis, 30 patients had history of Coronary Artery Bypass Grafting (CABGs), and 18 had chronic obstructive lung disease, 24 cases with chronic kidney disease, 4 with history of kidney transplantation and 10 patients with history of malignancy. Baseline characteristics are summarized in Table 1 .

The most presentation symptoms were dyspnea (73.4%) and cough (69.2 %).Other complaints as headache, diarrhea, myalgia, abdominal pain were less frequent. The first presentation of 13 patients was typical, anginal chest pain and were diagnosed as ST elevation myocardial infarction and referred for primary PCI. About 2 % of all COVID-19 patients were totally asymptomatic and were discovered incidentally. Mean duration of admission was 7±2 days.

Patients had variable clinical course. Five out of 404 patients had in-hospital pleuritic chest pain with laboratory and echocardiographic features of myopericarditis such as mild LV dysfunction (40<LVEF< 55%) and/or some rise in cardiac troponin I and mild pericardial effusion, without angiographically significant stenosis, although they had no ECG features in favor of pericarditis. D-dimer level was checked for all patients with pleuritic chest pain for possible diagnosis of pulmonary embolism, none had positive result. We found no case of late myopericarditis.

Patients with myopericarditis tended to be female (4/1), and hypertension was the most prevalent cardiovascular risk factor (HTN: 3, DM: 2, DLP and smoking: Zero cases).

Laboratory, ECG and echocardiographic data in patients with myopericarditis compared to non-myopericarditis patients are summarized in Table 2 . Clinical presentation, ECG and echocardiography and follow up of 5 cases with diagnosis of myopericarditis are summarized in Table 3 .

All 5 patients with diagnosis of myopericarditis had high level of cardiac TnI, and mild pericardial effusion, none of them had massive pericardial effusion and tamponade. ESR and CRP levels and total WBC count and differentiation were not significantly different with other patients.

Patients with myopericarditis had higher heart rate and longer corrected QT with no arrythmia except for mild sinus tachycardia. No specific ST-T changes were observed in patients with myopericarditis and no patient had typical ST elevation and PR depression. None of patients developed to cardiac tamponade and existence of pericardial effusion had no impact on mortality. Only one out of 5 patients ended to death due to progression of lung involvement and decline of O2 saturation.

COVID-19, an infectious disease caused by newly discovered Corona virus, affecting more than 111 millions people around the world up to 20 February 2020. The findings of several case reports indicate that the patient of all ages with current or previous infection can develop a hyperinflammatory syndrome and SARS-COV-2 has been found in multi organs including the heart, liver, brain, kidney and gastrointestinal tract. 8 A growing number of evidence shows many people with COVID-19 survivors will experience short and long term heart damage, even without underlying heart disease and even with mild disease.

The cardiovascular complication reported are acute cardiac injury, arrythmia and cardiac insufficiency. 9 The exact mechanism for cardiovascular problem are still unknown but some proposed mechanism are as follows; Direct viral involvement of cardiomyocyte, systemic inflammation, mismatch of demand and supply, sepsis leading to disseminated intravascular coagulation (DIC), coronary artery plaque rupture and superimposed thrombosis, side effect of medication and electrolyte imbalance. 10 SARS-COV-2 stimulates the immune system which is responsible for viral elimination and recovery. Evidence suppose the hypothesis that the clinical presentation of COVID-19 is as a result of variable immune responses to the virus. 11 Blanco-Melo et al showed that SARS-COV-2 induces a particular signature and leads to significant induction of multiple proinflammatory chemokines, IL-1B,IL6,TNFand IL1RA and the serum levels of theses cytokines which are elevated. 12 Myocarditis is an inflammatory process secondary to inflammatory infiltration and myocardial damage.IL6 is a mediator of cytokine storm that cause T-lymphocyte activation and T-cell mediated cytotoxicity. 13, 14 Pericardium also can be involved in inflammatory reactions and results in pericardial fluid accumulation. Karatolios and colleagues assessed pericardial and serum level of VEGF, bFGF, IL-1β and TNF-α by ELIZA in patients with viral and auto reactive pericardial effusion and concluded that the level of VEGF and bFGF are elevated in patients with inflammatory origin of PE. 15 Theoretically, by considering the inflammatory process of SARS-COV-2, we expect the incidence of myopericarditis to be raised in COVID-19. O' Gallagher et al reported the approximate 10% incidence of pericardial effusion in COVID-19 associated myocarditis, a complication that said to be uncommon. 16 Based on the King's College Hospital(London UK) experience , patients with previous cardiac diseases are at increased risk of developing myopericarditis. However we didn't find this association and the total incidence of pericardial effusion in our study population was about 1.2 % and all 5 patients had no history of cardiovascular disease.

It is important to know that COVID-19 can involve any organ without any pulmonary related sign or symptom. Amoozegar et al reported a 56 year-old-male who presented with complaint of recent onset dyspnea and chest pain without any associated fever and cough with large pericardial effusion but with no evidence of cardiac tamponade in echocardiography and ultimately diagnosed as COVID-19. 17 There are some other reports of large pericardial effusion and cardiac tamponade as the presentation of COVID-19. 18, 19 In an international 20 In our study only 5 patients had mild pericardial effusion and none of them developed to cardiac tamponade. Different clinical manifestation seems to be correlated to immuno-globulin profile of patients. In patients with moderate infection the profile indicate a protective T cell response , in contrast in patients with severe infection it shows an exacerbate of systemic inflammation and sign of T cell exhaustion. 11. Ristić AD et al compared the pericardial cytokines in neoplastic, autoreactive and viral pericarditis and found the cytokine pattern in various diseases is different. In that study increased TNF-alpha level and high TNF-alpha/ Low TGF-beta1 pattern was found in viral pericardial effusion rather than neoplastic and autoreactive ones. 21 TNF-alpha is an important cytokine in nearly all acute inflammatory reaction is increased significantly in patients with COVID-19 but couldn't distinguish moderate versus severe disease presentation but is correlated with end organ damage. 22 Whether different pattern of cytokines expression is the cause of distinct clinical presentation , such as existenced of pericardial effusion should be confirmed in in future studies.

In general, pericardial effusion and cardiac tamponade are not a prevalent complication of COVID-19, it should be considered as a possible cause of hemodynamic deterioration and decline of blood pressure and it seems mandatory to do follow up echocardiography for probable late development of constrictive pericarditis.

Myopericarditis, pericardial effusion and cardiac tamponade are rare complication of COVID-19 with prevalence about 1.2 %, but should be considered as a possible cause of hemodynamic deterioration, follow up echocardiography should be done for evaluation of possible late complications such as late cardiac tamponade and constrictive pericarditis. Whether different pattern of cytokines expression is the cause of distinct clinical presentation, such as existence of pericardial effusion should be confirmed in future studies. 

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We hereby express our thanks to Sakineh Momennia for her assistance.

None.

The study was approved by ethical committee of Tehran University of Medical Sciences (No. IR.TUMS.MEDICINE. REC.1400.253

The author(s) received no financial support for the research, authorship, and/or publication of this article.