Table 2 Cardiovascular manifestations of SARS-CoV, MERS-CoV and COVID-19. SARS (only studies with large study population included) Study Booth et al (2003)N = 144, confirmed casesRetrospective study Li et al (2003)N = 46, confirmed casesProspective study Pan et al (2003)N = 15, confirmed casesRetrospective study Ding et al (2004)N = 8 (4 confirmed cases, 4 control)Clinicopathologic study Yu et al (2006)N = 121, confirmed casesRetrospective study Clinical features • Chest pain (10%)• ↑HR (46%) • No chest pain or overt CHF on admission• ↓HR (non-ICU) ↑HR (ICU)•CHF exacerbation • Sudden cardiac arrest (100%)• MI and arrhythmia (33%) • Chest pain • ↑HR (71.9%) (62.8%, 45.4%, 35.5%) • ↓BP (50.4%) (28.1%, 21.5%, 14.8% during the first, second, third week)↓HR, transient (14.9%) • Reversible cardiomegaly (10.7%), no clinical heart failure • Chest discomfort (7%) • Palpitations (4%) Key findings on investigations • ↓Ca++ (60%) • ↓K+ (26%) • ↓Mg++ (18%) • ↓P+ (27%) • ↑ LDH (87%) • ↑ CK • ↑ LDH • ↓Hb • EKG: RBBB • Echo: ↓LVEF • Abnormal cardiac enzymes (66%) N/A • ↑ CK • ↑CK (26%) without TnI or CKMB • ↑ LDH • CXR or CT abnormality: 100% Histopathology N/A N/A N/A • Myocardial stromal edema • Infiltration of vessels by lymphocytes • Focal hyaline degeneration • Muscle fiber lysis N/A Key study findings and message • 20% ICU admission • 6.5% Case fatality rate (21 days) • Diabetes and other comorbidities independently associated with poor prognosis Possibly reversible subclinical diastolic impairment seen in SARS patients Proposed causes of SCD:• Hypoxemia leading to myocardial strain • Direct viral myocardial injury • Stress aggravates pre-existing disease • Sympathetic response causing electrical myocardial instability ACE2 expressed in heart, but virus not detected • ↑CK likely due to myositis as cardiac enzymes normal • 15% ICU admission • 18 (5) days mean duration of hospital stay • Tachycardia persists during follow up • Cardiac arrhythmia is uncommon MERS Study Alhogbani (2016)N = 1 confirmed caseCase report Almekhlafi et al (2016)N = 31, confirmed casesRetrospective study Garout et al (2018)N = 52, confirmed casesRetrospective study Clinical features CHF ↑HR (67.7%) Pericarditis Key findings on investigations • ↑ TnI • ↑ BNP • ↑ Creatinine • Echo: Severe global LV dysfunction • Cardiac MRI: Myocarditis N/A N/A Key study findings and message MERS-CoV may cause myocarditis and acute heart failure • Vasopressor need is a risk factor for death (P = 0.04) • 80.6% vasopressor support rate No association of ECMO need with outcomes COVID-19 Study Huang et al (2020)N = 41, confirmed casesRetrospective study Wang et al (2020)N = 138, confirmed casesRetrospective study Zheng et al (2020)Review Bhatraju et al (2020)N = 24, confirmed casesRetrospective study Fried et al (2020)N = 4, confirmed casesCase reports Clinical features • ↑BP • Acute cardiac injury (12%) more in ICU patients than non-ICU patients (31% vs. 4%) • Pre-existing HTN (31.2%) (58.3% in ICU, significant) • Pre-existing CVD (14.5%) (25% in ICU, significant) • Acute cardiac injury (7.2%) (22.2% in ICU, significant) • Arrhythmia (16.7%) (44.4% in ICU patients) • Palpitations • Chest tightness • ↑HR (48%) • Vasopressor need (71%) • Myopericarditis • Decompensated heart failure • Cardiogenic Shock Key findings on investigations • ↑ TnI (12%) (31% in ICU patients, 4% in non-ICU patients) • ↑ TnI • ↑ CK-MB N/A • ↑ TnI (15%) • Diffuse ST segment elevations • Elevated cardiac enzymes • LVEF on echo Key Study findings and message ↑BP more common in ICU patients (P = 0.018) ICU patients more likely to have pre-existing hypertension, develop arrhythmias, acute cardiac injury (P < 0.001) Proposed mechanism of cardiac injury:• ACE 2 related • Cytokine storm • Hypoxemia • ICU admission most commonly due to hypoxemic respiratory failure, vasopressor requirement or both • 50% mortality • Similar symptoms in heart transplant patients as nontransplant patients BNP, B-type natriuretic peptide; BP, blood pressure; HR, heart rate; CHF, congestive heart failure; CK, creatine kinase; CKMB, creatine kinase myocardial band; CXR; chest x-ray; ECMO, extracorporeal membrane oxygenation; Hb, hemoglobin; ICU, intensive care unit; LDH, lactate dehydrogenase; LVEF, left ventricular ejection fraction; MI, myocardial infarction; MERS-CoV, middle east respiratory syndrome coronavirus; RBBB, right bundle branch block; SARS-COV, severe acute respiratory syndrome coronavirus; TnI, troponin-I.