are noted on electrocardiogram.
  Experience has been emerging about cardiac manifestations of COVID-19-positive patients. The full cardiac spectrum is still unknown, and management of these patients is challenging.
 
  We report a COVID-19 patient who developed unusually long asystolic pauses associated with atriventricular block (AV) block and atrial fibrillation who underwent leadless pacemaker implantation.
 
  Asystole may be a manifestation of COVID-19 infection. A leadless pacemaker is a secure remedy, with limited requirements for follow-up, close interactions, and number of procedures in a COVID-19 patient.
 Asystole may be a manifestation of COVID-19 infection. A leadless pacemaker is a secure remedy, with limited requirements for follow-up, close interactions, and number of procedures in a COVID-19 patient.
  Coronavirus disease 2019 (COVID-19) is a syndrome that has been associated with multiple cardiac complications including myopericarditis. The pathophysiology and treatment for myopericarditis in the setting of COVID-19 infection is still under investigation.
 
  We present a case of a 60-year-old male admitted for dyspnoea due to COVID-19. He developed new ST-segment elevation, elevated cardiac enzymes, severe left ventricular dysfunction, and high inflammatory markers in the setting of haemodynamic and respiratory collapse from the viral illness. He was diagnosed with COVID-19-induced myopericarditis. He showed rapid clinical improvement with a rapid wean off pressure support, resolution of electrocardiogram (ECG) findings, and recovery of left ventricular systolic function following treatment with intravenous immunoglobulin (IVIG) and methylprednisolone.
 
  COVID-19's complex and devastating complications continue to create new challenges for clinicians. Cardiac complications, specifically, have been shown to be a signal for worse prognosis in these patients. IVIG and steroids can inhibit the inflammatory cascade and decrease myocardial injury, with implications in treatment of severe myopericarditis.
 COVID-19's complex and devastating complications continue to create new challenges for clinicians. Cardiac complications, specifically, have been shown to be a signal for worse prognosis in these patients. IVIG and steroids can inhibit the inflammatory cascade and decrease myocardial injury, with implications in treatment of severe myopericarditis.
  Fulminant myocarditis is a catastrophic disease with high mortality and complications. A viral aetiology is frequent and the implication of SARS-CoV-2 is not yet known.
 
  A 38-year-old woman who recently arrived from Spain presented with palpitations that started suddenly 3 days prior to presentation and were associated with haemodynamic instability, without dyspnoea or chest pain. We found features of myopericarditis on the electrocardiogram and severe systolic dysfunction on the echocardiogram. The chest tomography showed findings which suggested COVID-19 infection, and PCR for SARS-CoV-2 was positive. The cardiac magnetic resonance image showed Lake Louise criteria for myocarditis. The patient was treated with immunomodulatory, steroid, and immunoglobulin therapy, with a favourable clinical response.
 
  The importance of this case lies in highlighting the severe cardiac involvement in a young patient, without previous risk factors, positive for COVID-19, and the favourable response to the medical treatment given.
 The importance of this case lies in highlighting the severe cardiac involvement in a young patient, without previous risk factors, positive for COVID-19, and the favourable response to the medical treatment given.
  SARS-CoV-2 is known to induce a cytokine storm, a hyperinflammatory state driven by up-regulation of interleukin 6 (IL-6) and immunomodulatory chemokines that may result in acute heart failure.
 
  A 65-year-old woman with confirmed SARS-CoV-2 developed shock with multiorgan system failure, including acute biventricular heart failure, 2 weeks after the initial onset of fever, cough, and shortness of breath. The patient experienced myocardial recovery within 48 h after administration of tocilizumab, a humanized monoclonal anti-IL-6 receptor antibody, and multiple supportive vasoactive medications.
 
  The differential diagnosis of acute heart failure in critically ill patients with COVID-19 infection is broad, including sepsis-induced cardiomyopathy, Takotsubo syndrome, viral lymphocytic myocarditis, and acute coronary syndrome.  https://www.selleckchem.com/mTOR.html  Immunomodulatory treatment with tocilizumab may benefit patients who develop cardiogenic shock associated with SARS-CoV-2-induced cytokine storm.
 The differential diagnosis of acute heart failure in critically ill patients with COVID-19 infection is broad, including sepsis-induced cardiomyopathy, Takotsubo syndrome, viral lymphocytic myocarditis, and acute coronary syndrome. Immunomodulatory treatment with tocilizumab may benefit patients who develop cardiogenic shock associated with SARS-CoV-2-induced cytokine storm.
  Early studies have led to the repositioning of a subgroup of antimalarial agents (e.g. chloroquine and hydroxychloroquine) as antiviral treatment in coronavirus disease 2019 (COVID-19) patients. These drugs are now being prescribed based on small non-controlled studies, but larger controlled studies have yet to demonstrate the positive effect of these drugs. In addition, these drugs are also known for their QT interval-prolonging effect associated with significant morbidity and mortality.
 
  We present a case of a 66-year-old female admitted to the intensive care unit with respiratory failure due to COVID-19. She was treated with chloroquine (QTc interval at baseline was 429 ms). Despite cessation of chloroquine, but after the start of erythromycin, she developed severe QTc interval prolongation (QTc interval 550 ms) and 'Torsade de Pointes'. Two weeks after cessation of all QTc interval-prolonging drugs, the QTc interval was restored.
 
  The elimination half-life of chloroquine ranges from days up to weeks. Even after discontinuation of chloroquine, ECG monitoring in COVID-19 patients is warranted. We recommend observation of the QT interval after cessation of chloroquine in cases where other potentially QT interval-prolonging drugs are introduced.
 The elimination half-life of chloroquine ranges from days up to weeks. Even after discontinuation of chloroquine, ECG monitoring in COVID-19 patients is warranted. We recommend observation of the QT interval after cessation of chloroquine in cases where other potentially QT interval-prolonging drugs are introduced.