ABSTRACT
Introduction: COVID-19 infection has been associated with acute myocardial dysfunction. However, long-term effects of myocardial injury during COVID-19 infection are not well characterized. Novel speckle tracking echocardiography (STE) may lend further insights into COVID-19 myocardial dysfunction. Method(s): Patients hospitalized with acute COVID-19 infection from March 2020 to September 2021 who underwent STE and had evidence of myocardial dysfunction (defined as left ventricular ejection fraction (LVEF) less than 55% and/or global longitudinal strain (GLS) less negative than -18%) were enrolled in follow-up 3-12 months after hospitalization. Clinical and laboratory data were collected, and follow-up STE was performed, including LVEF, GLS, myocardial work index (MWI) and myocardial work efficiency (MWE) measurements. Statistical analysis was performed to determine risk factors for worsening myocardial dysfunction at follow-up. Result(s): Twenty-four patients were enrolled at an average 239+/-102 days after the initial hospitalization echocardiogram: 13 (54%) male, 14 (58%) Black, and average age 56+/-14 years. Average duration of initial admission was 24+/-25 days;14 patients (58%) were admitted to the intensive care unit. Ten (42%) patients had acute respiratory distress syndrome, 1 (4%) had ST-elevation myocardial infarction and 1 (4%) had cardiac arrest. Eleven (46%) patients required mechanical ventilation and 2 (8%) required extracorporeal membrane oxygenation. Five (21%) patients had elevated troponin on admission and average peak troponin was 1.35+/-3.83 ng/ml. Follow-up STE showed significant improvement in average GLS (-13.7+/-3.2% vs -16.0+/-3.7%, P=0.03). There were no significant changes in average LVEF (55.9+/-12.6% vs 55.5+/-8.8%, P=0.90), MWI (1519+/-425 vs 1681+/-412, P=0.24) and MWE (93+/-4 vs 92+/-4, P=0.65) at follow-up compared to during COVID-19 infection. Patients with lower LVEF at follow-up as compared to acute infection (n=11, 46%) were more likely to have had longer duration of symptoms prior to initial presentation (11+/-5 days vs 6+/-5 days, P=0.02) and higher peak erythrocyte sedimentation rate (94+/-30 mm/h vs 44+/-36 mm/h, P=0.007) compared to those with stable or improved LVEF. Conclusion(s): Approximately 8 months after COVID-19 infection, average GLS was significantly improved in patients with myocardial dysfunction during acute COVID-19 infection. Close follow-up is recommended for patients with evidence of myocardial injury during COVID-19 infection, especially those who present with prolonged symptoms and those with high inflammatory markers.Copyright © 2022
ABSTRACT
Coronavirus disease 2019 (COVID-19) has been associated with a wide spectrum of cardiovascular manifestations. Since the beginning of the pandemic, echocardiography has served as a valuable tool for triaging, diagnosing and managing patients with COVID-19. More recently, speckle-tracking echocardiography has been shown to be effective in demonstrating subclinical myocardial dysfunction that is often not detected in standard echocardiography. Echocardiographic findings in COVID-19 patients include left or right ventricular dysfunction, including abnormal longitudinal strain and focal wall motion abnormalities, valvular dysfunction and pericardial effusion. Additionally, some of these echocardiographic abnormalities have been shown to correlate with biomarkers and adverse clinical outcomes, suggesting an additional prognostic value of echocardiography. With increasing evidence of cardiac sequelae of COVID-19, the use of echocardiography has expanded to patients with cardiopulmonary symptoms after recovery from initial infection. This article aims to highlight the available echocardiographic tools and to summarize the echocardiographic findings across the full spectrum of COVID-19 disease and their correlations with biomarkers and mortality.