Impact of dexamethasone on cardiac injury in critically ill COVID-19 patients

Abstract

Abstract Aims/Background Severe COVID-19 pneumonia requiring intensive care treatment remains a clinical challenge to date. Dexamethasone was reported as a promising treatment option, leading to a reduction of mortality rates in severe COVID-19 disease as well as ventilator-dependent days. However, the effect of dexamethasone treatment on cardiovascular outcomes including cardiac injury monitored by cardiac enzymes remains largely elusive. Methods For this study, we retrospectively screened 224 consecutive COVID-19 patients between 4/2020 and 1/2021 in three Europeen Hospitals. To avoid bias effects of further applied COVID-19 specific medications including tacilizumab, remdesevir and sarilumab, 46 patients treated with at least one of these substances were excluded from further analyses. In total 178 critically ill COVID-19 patients requiring intensive care treatment and mechanical ventilation were recruited. 113 patients (63.5%) were treated with dexamethasone for a median duration of 10 days (IQR 9–10). 65 patients (36.5%) constituted the non-dexamethasone group. The assessment of cardiac injury was based on cardiac enzymes. Results Baseline charactaristics shown in Tab. 1. While peak inflammatory markers seemed to be reduced by dexamethasone treatment (CRP and a trend towards decrease of interleukin 6 levels (CRP maximum level: median: 20 ng/mL (IQR 12–28) vs. 22 ng/mL (IQR 14–37), p=0.043; IL-6 maximum level: median: 192 pg/mL (IQR 78–533) vs. 708 pg/mL (550–885), p=0.085), in the dexamethasone Group also shown a significant reduction in peak troponine levels as shown in Figure 1. CK and CK-MB do not differ significantly by Dexamethasone application. Of note, no significant changes in baseline characteristics were observed between the dexamethasone and non-dexamethasone group (Table 1). Conclusion In severe COVID-19, antiinflammatory effects of dexamethasone treatment could be associated with a significant reduction in myocardial injury. Further studies should further evaluate whether Dexamethasone effects directly myocardial involvement in COVID 19. Funding Acknowledgement Type of funding sources: None.