https://www.selleckchem.com/products/Puromycin-2HCl.html Long-QTc episodes were detected more frequently in the CCT group (69/206 [34%] vs 26/245 [11%]; < 0.0001) and ECGs were performed less frequently (32/206 [16%] vs 78/245 [32%]; < 0.0001). Auto-QTc correlated well with QTc measurement by electrophysiologists with an excellent agreement in detecting Long-QTc (κ= 0.8; < 0.008). Only 28% of patients with Long-QTc episodes were treated with recommended therapies. There was 1 episode of torsade de pointes in the control group and none in the CCT group. Continuous QT interval monitoring is superior to standard of care in detecting episodes of Long-QTc with minimal need for ECGs. The clinical response to Long-QTc episodes is suboptimal. Continuous QT interval monitoring is superior to standard of care in detecting episodes of Long-QTc with minimal need for ECGs. The clinical response to Long-QTc episodes is suboptimal. During the current COVID-19 pandemic, a link between acute cardiac injury and COVID-19 infection has been observed. There is currently no consensus on the incidence of cardiac injury, its relationship to prognosis, or its possible cause. In this article we provide a comprehensive review and meta-analysis of the incidence, comorbidities, outcomes, and possible mechanisms of acute cardiac injury in COVID-19 patients. We searched PubMed and Embase for studies that evaluated cardiac injury in hospitalized COVID-19 patients. Data on demographic information, comorbidities, and relevant laboratory values were extracted and a meta-analysis was performed. Sixteen studies from China, Italy, and the United States with 2224 patients were included in this meta-analysis. The incidence of cardiac injury was 24.4% (542/2224 patients) in hospitalized COVID-19 patients. The all-cause mortality in patients with cardiac injury was 72.6% (odds ratio, 17.32; 95% confidence interval, 9.21-32.57) compared with those without cardiac injury (14.5%). In subgroup analyses, factors