key: cord-0993989-vr2eqsbq
authors: Sawalha, Khalid; Abozenah, Mohammed; Kadado, Anis John; Battisha, Ayman; Al-Akchar, Mohammad; Salerno, Colby; Hernandez-Montfort, Jaime; Islam, Ashequl M.
title: Systematic Review of COVID-19 Related Myocarditis: Insights on Management and Outcome
date: 2020-08-18
journal: Cardiovasc Revasc Med
DOI: 10.1016/j.carrev.2020.08.028
sha: ba920336ca3e54843fecd2f02fec03269e1838dc
doc_id: 993989
cord_uid: vr2eqsbq

Abstract Introduction Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), also referred to as COVID-19, was declared a pandemic by the World Health Organization in March 2020. The manifestations of COVID-19 are widely variable and range from asymptomatic infection to multi-organ failure and death. Like other viral illnesses, acute myocarditis has been reported to be associated with COVID-19 infection. However, guidelines for the diagnosis of COVID-19 myocarditis have not been established. Methods Using a combination of search terms in the PubMed/Medline, Ovid Medline and the Cochrane Library databases and manual searches on Google Scholar and the bibliographies of articles identified, we reviewed all cases reported in the English language citing myocarditis associated with COVID-19 infection. Results Fourteen records comprising a total of fourteen cases that report myocarditis/myopericarditis secondary to COVID-19 infection were identified. There was a male predominance (58%), with the median age of the cases described being 50.4 years. The majority of patients did not have a previously identified comorbid condition (50%), but of those with a past medical history, hypertension was most prevalent (33%). Electrocardiogram findings were variable, and troponin was elevated in 91% of cases. Echocardiography was performed in 83% of cases reduced function was identified in 60%. Endotracheal intubation was performed in the majority of cases. Glucocorticoids were most commonly used in treatment of myocarditis (58%). Majority of patients survived to discharge (81%) and 85% of those that received steroids survived to discharge. Conclusion Guidelines for diagnosis and management of COVID-19 myocarditis have not been established and our knowledge on management is rapidly changing. The use of glucocorticoids and other agents including IL-6 inhibitors, IVIG and colchicine in COVID-19 myocarditis is debatable. In our review, there appears to be favorable outcomes related to myocarditis treated with steroid therapy. However, until larger scale studies are conducted, treatment approaches have to be made on an individualized case-by-case basis.

Infection with the novel pathogen severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), also referred to as COVID-19, was first reported in Wuhan, China in December 2019 and declared a pandemic by the World Health Organization (WHO) in March 2020 (1). SARS-CoV-2 is one of the zoonotic coronaviruses similar to severe acute respiratory syndrome coronavirus (SARS-CoV) and the Middle East respiratory syndrome coronavirus (MERS-CoV) and believed to have resulted from a zoonotic transmission to humans from bats (2). The manifestations of COVID-19 are widely variable and range from asymptomatic infection to multi-organ failure and death. Pulmonary involvement is the most dominant clinical manifestation of COVID-19 including acute respiratory distress syndrome (ARDS) which is associated with higher mortality, up to 52.4% in one series (3). With rapidly evolving research on COVID-19, cardiovascular manifestations were found to occur in 20-30% of hospitalized patients and associated with worse outcomes (4). COVID-19 related viral myocarditis has been reported in multiple case reports and review articles. The mechanism of cardiac injury remains poorly understood which makes management challenging. Multiple institutions have established guidelines for the management of COVID-19 however focus on respiratory distress and ARDS management. No guidelines for the management of myocarditis currently exist. Current practice is limited to case reports and our understanding of the pathophysiology of the disease is still to be determined.

investigate the most common presenting features, workup and outcomes in the reported cases to identify a common pattern to aid in the diagnosis and management.

We conducted a systematic search of the medical literature of online databases including PubMed/Medline , Ovid Medline and the Cochrane Library from December 1 st 2019 to June 30th th 2020.

We searched for the following medical subjects heading (MeSH) terms: (((COVID-19 OR coronavirus OR novel coronavirus OR SARS-CoV-2 OR SARS CoV 2))) in combination with terms "Myocarditis", "Pericarditis", and "myopericarditis". We also screened all primary articles bibliography for addition cases. We limited our search to articles written in the English language. We limited our search to case reports only. Our search was in line with PRISMA guidelines and the flowchart in Figure 1 portrays the search and screening process. A total of 64 records were identified through our literature search. Two reviewers (K.S and M.A) reviewed all retrieved titles, abstracts and manuscripts and identified eight relevant manuscripts. Another four eligible cases were identified by a manual search on Google scholar, Google search engine, and the bibliographies of the primary articles which resulted in a total of 12 cases.

One of the identified manuscripts reported two cases however only one of them reported a case of myocarditis and the second discussed a case of stress cardiomyopathy which was excluded. For each case identified, we collected patient demographics including age and gender and clinical information such as presentation, laboratory results, electrocardiogram, echocardiography and advanced cardiac imaging results. described being 50.4 years. A third (33%) of all cases were younger than 40 years of age. The majority of patients did not have a previously identified comorbid condition (50%), but of those with a past medical history, hypertension was most prevalent (33%). Shortness of breath and/or dyspnea were the commonest presenting features (75%) along with fever (75%).Comorbidities and presenting symptoms were summarized in table-4. Of the 11 cases with documented hemodynamic status, the majority were in shock (64%), with cardiogenic shock being the most commonly identified cause (71% cardiogenic and 29% mixed cardiogenic and septic shock). Examination findings beyond vital signs were rarely reported and so their findings were not included. Around 42% of all patients either presented in acute respiratory distress syndrome (ARDS), or developed it during their hospitalization (Table 1) .

Electrocardiogram findings were variable and included diffuse ST-segment elevation, STsegment depression, and T-wave inversion occurring equally at 25% each. Troponin was elevated in 91% of cases, whereas CK-MB and pro-brain natriuretic peptide (pro-BNP) were checked less frequently Endomyocardial biopsy was performed in one case which showed virus-negative lymphocytic myocarditis. Echocardiography was performed in most cases (83%) and 60% had reduced ejection fraction. Cardiac tamponade physiology was reported in 20% of all echocardiograms, with diffuse hypokinesis occurring 30% of the time. Advanced cardiac imaging with MRI was performed in 43% of cases which showed diffuse gadolinium enhancement. Coronary artery diagnostic work-up included CT angiography (17%) and invasive coronary angiography (25%). No patients were found to have any obstructive coronary disease. (Table 2 ).

Around 50% of the patients required Vasopressor support and 25% of them requiring inotropic support. Mechanical support was also utilized (17%), with the commonest modality being extracorporeal membrane oxygenation. Medical management included therapies targeted at COVID-19, therapies for management of myocarditis/myopericarditis, and therapies targeted cytokine storm. Many J o u r n a l P r e -p r o o f treatment modalities were also utilized to manage myocarditis/myopericarditis specifically, with glucocorticoids being the most commonly used (58%), followed by immunoglobulin therapy (25%) and colchicine (17%). Of the 7 cases in which glucocorticoid therapy was used, 71% started therapy on day 1 of admission. Additional therapy targeting the cytokine storm were used such as tocilizumab (17%) and interferon (17%) ( Table-3 ).

There was no report of outcomes whatsoever in 3 cases (25%). At the time of submission of the case reports, the majority had survived to discharge (81% of those with reported outcomes) with only a minority of cases not surviving (19% of those with reported outcomes). All of the patients that reportedly passed away were noted to have both ARDS and myocarditis (Table 4 ).

Our study shows several trends across all cited cases. Hypertension was the most common comorbidity noted amongst cases (33%).. Steroids were used in 50% of cases and multiple second-line agents including Tocilizumab (14%), immunoglobulins (21%) and interferon (14%) were used in addition to steroids. Echocardiography showed reduced ejection fraction in the majority of cases. The overall survival rate was 81% and survival rate in those who received steroids was 85%.

SARS-CoV-2 is a beta coronavirus comprised of an enveloped positive single-stranded ribonucleic acid (RNA) structure that belongs to the Coronavirinae subfamily (17) . The virus can invade the human host cell by binding to angiotensin-converting enzyme 2 (ACE2). The ACE2 is a membranebound protein that is expressed in many organ tissues, including cardiovascular epithelium, renal and lung tissues. After penetration, viral RNA enters the cell nucleus for replication and apoptosis (20) . The human immune response to the virus is variable which explains the variable clinical presentation. Higher plasma level of cytokines has been found in severe cases such as ARDS (21). To date, no definitive cure is J o u r n a l P r e -p r o o f available for COVID-19 and most of the medications used or currently being studied are targeting the activation of inflammatory cells and proinflammatory cytokines. Cardiovascular involvement has been prominent in COVID-19 cases. However, despite rapidly developing data and information, little is known about the incidence and outcomes of cardiovascular manifestations in COVID-19. There are several cardiac presentations that have been noted, including acute myocardial infarction, acute heart failure, cardiogenic shock, myocarditis, and malignant arrhythmia (22). Patients with underlying cardiovascular disease (CVD) have a higher risk of developing cardiac injury. In a single-center retrospective study from Wuhan including 187 patients, the mortality rate was higher in patients with underlying CVD compared to patients without CVD (54.5% vs 13.2%). It also showed that 37.5% of patients who died had cardiac injury with elevated troponin and mortality was 69.4% in those with a history of CVD (23) . In most studies, cardiac injury was evident by elevated troponin and pro-BNP. The levels of these markers were higher in critically ill patients admitted to the ICU (24) . Given that the exact mechanism of cardiac involvement is not well understood, management of this entity is more challenging. Like other viral illnesses, acute myocarditis has been reported to be associated with COVID-19 infection. Guidelines for the diagnosis of COVID-19 myocarditis have not been established. Current literature on this manifestation is limited to case reports and a small number of patients in cohort studies. However, a workup including cardiac biomarkers and electrocardiogram are initially recommended (25). Our results revealed that ECG changes were non-specific and highly variable. This is consistent with non-specific ECG findings in myocarditis cited in the literature (26). Serial ECGs may be a tool to provide a relatively quick, cost-effective, and non-invasive means at outlining and intervening in early stages of the disease process.

Echocardiography is an important tool in evaluating structural and functional changes secondary to myocarditis (27, 28). However, no specific echocardiographic features of myocarditis exist, but it allows the physician to exclude other causes of heart failure, pericardial effusion, and intracavitary J o u r n a l P r e -p r o o f Journal Pre-proof thrombi (29). Patterns consistent with dilated, hypertrophic, and ischemic cardiomyopathies have all described in biopsy-proven myocarditis (30). In our study, no trend was appreciated with regards to echocardiogram findings on presentation, with 50% showing reduced ejection fraction and 42% showing evidence of pericardial effusion. Diffuse hypokinesis was also seen in 25% of cases. Cardiac MRI is the noninvasive gold standard test for myocarditis. It was done in six of the reported cases of which all showed gadolinium enhancement and two showed evidence of myocarditis as fulfilled by the Lake Louis criteria for MRI based diagnosis of myocarditis. The current data on the use of glucocorticoids in COVID-19 infection remains controversial and to our knowledge, no current studies have been conducted to assess the efficacy of corticosteroid therapy on COVID-19 myocarditis. Corticosteroid therapy was ineffective in treating viral myocarditis according to a Cochrane systematic review published in 2013 (40). Furthermore, it has been reported that corticosteroid therapy might delay the clearance of the virus . In a study that was recently done on COVID-19 patients, the duration of viral RNA detection for oropharyngeal swabs and feces was longer in patients who were treated with corticosteroids (41). Moreover, there is concern for increasing secondary infection and adrenal insufficiency as a result of steroid therapy. Two studies from China showed that IV methylprednisone has no significant benefit in COVID-19 patients (42) and was associated with higher ICU admissions (43). However, these findings might be cofounded given that steroids were used on sicker patients and likely for separate treatment purposes. On the contrary, a study from Wuhan involving 84 -patients with ARDS secondary to COVID-19, administration of corticosteroids decreased the risk of mortality (3). Additionally, A recent press release from a large clinical trial on COVID-19 patients, the RECOVERY (Randomized Evaluation of COVid-19 thERapY), Dexamethasone was shown to reduce mortality in one third of the ventilated patients ( rate ratio 0.65 [95% CI 0.48 to 0.88]; p=0.0003). In our review, five out of seven patients who were treated with corticosteroid recovered; one passed away and the other case did not report outcomes. We cannot J o u r n a l P r e -p r o o f confirm if it is due to a true treatment effect or by chance only, yet based on recent data, steroid might be associated with favorable outcomes in critically ill COVID19 patients (44).

Intravenous immunoglobulin was used in three reported cases with variable outcomes. There is strong evidence on the efficacy of IVIG in the treatment of acute myocarditis. A meta-analysis published in 2019 comparing IVIG to corticosteroid for acute myocarditis showed that IVIG therapy improved mortality and recovery of left ventricular function (45). It was difficult to notice a specific trend on IVIG in our review because it was used only in three patients and more studies are needed to prove its efficacy on COVID-19 myocarditis.

Tocilizumab is an IL-6 receptor antagonist that is used more commonly in rheumatoid arthritis treatment. It is also approved to be used for cytokine release syndrome based on multiple studies that proved its efficacy (46). In a single center case series including 15 patients, 11 patients improved or stabilized after starting tocilizumab however, the study included a small number of patients and reported the outcomes after 7 days post treatment only (47). In the reported cases, four report high IL-6 levels, and 50% of those with high IL-6 levels received Tocilizumab with variable outcomes resulting. trial results, Remdesivir, was found to be superior to placebo in shortening the time to recovery in adults hospitalized with COVID-19 (51). It was also found to prevent and reduce disease severity in MERS coronavirus in primates (52). Until prospective studies and trials establish guidelines for the management of COVID-19 myocarditis, treatment has to be catered to individual case presentations.

The limitations of this study are characteristic to studies based on case reports. First, our study is limited to cases reports which imparts potential selection bias since reported cases are usually unique cases in presentation and management. Since the COVID-19 pandemic impacted routine clinical practice and diagnostic approaches, many cases did not undergo further diagnostic workup done such as cardiac MRI and endomyocardial biopsy. In addition, publication bias on the part of authors reporting these cases is another factor to account for. Despite these limitations, we believe the use of case reports in our review is fundamental in detecting trends and generating hypotheses.

Our knowledge on the complications and management of COVID-19 is exponentially growing.

Myocardial injury and myocarditis have been shown to be associated with higher morbidity and mortality. Despite the rapidly growing research on management of COVID-19 and its complications, there are many unanswered questions and areas to explore. Currently, most of the ongoing research is focusing on the respiratory complications of COVID-19 and little is known about myocarditis management. The use of glucocorticoids in COVID-19 myocarditis is debatable. In our review, there appears to be favorable outcomes related to myocarditis treated with steroid therapy. However, until larger scale studies are conducted, treatment approaches have to be made on an individualized case-bycase basis. 

Infection with Fulminant Myocarditis Complication: Case Report and Insights

Coronavirus genome structure and replication

Atypical Manifestation of COVID-19-Induced Myocarditis

Acute myocarditis presenting as a reverse Tako-Tsubo syndrome in a patient with SARS-CoV-2 respiratory infection

COVID-19 pathophysiology: A review

T cell-mediated immune response to respiratory coronaviruses

Clinical course and risk factors for mortality of adult inpatients with COVID-19 in Wuhan, China: a retrospective cohort study

Cardiovascular implications of fatal outcomes of patients with coronavirus disease 2019 (COVID-19)

Mechanical support 2 (14)

Corticosteroid only 3 (21); 100% survival amongst those who received corticosteroids only Corticosteroid + IVIG 3 (21); 66% survival amongst those who received corticosteroids + IVIG therapy Corticosteroid + Tocilizumab 1 (7); patient survived to discharge Tocilizumab alone 1 (7); patient ultimately died