ABSTRACT
TOPIC: Chest Infections TYPE: Original Investigations PURPOSE: Various cardiac manifestations of the COVID-19 virus have been reported since early 2020, including a range of arrhythmias, but to our knowledge, only 2 case reports exist describing new bradycardia in patients with COVID-19 infection. We aimed to analyze the association between sinus bradycardia and severity of covid-19 infection, including survival outcomes. METHODS: A retrospective analysis was done for 1535 patients with SARS-CoV2 infection who were admitted to four teaching hospitals in an urban area in 2020. The mean age was 66 years (SD of 16.7, range 18-99), with 774 males (50.4%). Multivariate logistic regression methods were used to analyze the associations between independent variables and outcomes. Pulse rate variables were recorded as pulse rate at day-0, day-3, day-7, and incidence of bradycardia on 3 consecutive days during admission. Other variables recorded were age, gender, comorbidities, prior history of cardiac disease/arrhythmias, concomitant medications (including AV nodal blockers, dexamethasone, Remdesivir, Albuterol, and Lasix), and ICU admission. The severity of COVID-19 infection was graded by the need for ICU admission vs. no ICU admission. Survival analysis was run for 7-day and 30-day mortality, as well as survival to hospital discharge. RESULTS: 1415 patients were included in the final analysis, as 120 patients with prior heart block were excluded. 508 patients (33.1%) required ICU admission due to severe hypoxia, 708 patients (46.2%) had at least one episode of significant bradycardia. Our sample population had an inpatient all-cause mortality of 18.1%. After adjusting for confounding variables, it was seen that patients with incident bradycardia on 3 consecutive days were more likely to require ICU admission than patients without these bradycardia events (Odds Ratio 1.58, p=0.001). There was no significant association of bradycardia with survival to hospital discharge (p=0.761). It was also seen in a sub-analysis that tachycardia on day-3 is statistically significantly associated with 7-day mortality, such that patients with tachycardia on day 3 had 2.9 (p<0.001) times the odds of 7-day mortality compared to those with normal heart rate. We also tested the overall significance of pulse rate at day-0, day 3, day 7, and persistent bradycardia and found that pulse at day 3 was a statistically significant predictor of 7-day mortality (p=0.001). CONCLUSIONS: Our findings suggest a possible correlation between bradycardia and the severity of COVID-19 symptoms;more severe COVID-19 cases were associated with a higher incidence of new bradycardia events. Transient sinus bradycardia can be triggered by severe hypoxia, inflammatory damage to AV-nodal cells, or exaggerated response to medications, but the exact etiology is still unknown. Bradycardia might be a warning sign of possible acute worsening of symptoms and should be monitored closely. Further studies are warranted to confirm these findings. CLINICAL IMPLICATIONS: Transient sinus bradycardia is possibly associated with a higher likelihood of ICU admission due to the severity of COVID-19 symptoms, and these patients should be monitored closely. DISCLOSURES: No relevant relationships by Firas Abdulmajeed, source=Web Response No relevant relationships by Abasin Amanzai, source=Web Response No relevant relationships by Rahul Bollam, source=Web Response No relevant relationships by Florencio Mamauag, source=Web Response No relevant relationships by Kainat Saleem, source=Web Response No relevant relationships by Morgan Stalder, source=Web Response No relevant relationships by Syed Arsalan Zaidi, source=Web Response
ABSTRACT
A novel severe acute respiratory syndrome coronavirus (SARS-CoV-2) causing lethal acute respiratory disease emerged in December 2019. The World Health Organization named this disease "COVID-19" and declared it a pandemic on March 11, 2020. Many studies have shown that mesenchymal stem cells (MSCs) and their exosomes (MSCs-Exo), which are isolated from allogenic bone marrow stem cells, significantly lower the risk of alveolar inflammation and other pathological conditions associated with distinct lung injuries. For example, in acute respiratory distress syndrome (ARDS) and pneumonia patients, MSCs-Exo and MSCs provide similar healing properties and some clinical trials have used cell-based inhalation therapy which show great promise. MSCs and MSCs-Exo have shown potential in clinical trials as a therapeutic tool for severely affected COVID-19 patients when compared to other cell-based therapies, which may face challenges like the cells' sticking to the respiratory tract epithelia during administration. However, the use of MSCs or MSCs-Exo for treating COVID-19 should strictly adhere to the appropriate manufacturing practices, quality control measurements, preclinical safety and efficacy data, and the proper ethical regulations. This review highlights the available clinical trials that support the therapeutic potential of MSCs or MSCs-Exo in severely affected COVID-19 patients.