Urine 11-dehydro-thromboxane B2 (u11-dh-TxB2), 8-hydroxy-2'-deoxyguanosine, and liver-type fatty acid binding protein levels (L-FABP) at the time of hospitalization were higher in COVID-19 patients with adverse events versus without events. Higher u11-dh-TxB2 and L-FABP levels were associated with longer hospitalization, more thrombotic events, and greater mortality, providing evidence for potential utility as early prognostic biomarkers for COVID-19.
Diabetes mellitus (DM) is associated with a greater risk of COVID-19 and an increased mortality when the disease is contracted. Metformin use in patients with DM is associated with less COVID-19-related mortality, but the underlying mechanism behind this association remains unclear. Our aim was to explore the effects of metformin on markers of inflammation, oxidative stress, and hypercoagulability, and on clinical outcomes. Patients with DM on metformin (n = 34) and metformin naïve (n = 41), and patients without DM (n = 73) were enrolled within 48 h of hospital admission for COVID-19. Patients on metformin compared to naïve patients had a lower white blood cell count (p = 0.02), d-dimer (p = 0.04), urinary 11-dehydro thromboxane B 2 (p = 0.01) and urinary liver-type fatty acid binding protein (p = 0.03) levels and had lower sequential organ failure assessment score (p = 0.002), and intubation rate (p = 0.03), fewer hospitalized days (p = 0.13), lower in-hospital mortality (p = 0.12) and lower mortality plus nonfatal thrombotic event occurrences (p = 0.10). Patients on metformin had similar clinical outcomes compared to patients without DM. In a multiple regression analysis, metformin use was associated with less days in hospital and lower intubation rate. In conclusion, metformin treatment in COVID-19 patients with DM was associated with lower markers of inflammation, renal ischemia, and thrombosis, and fewer hospitalized days and intubation requirement. Further focused studies are required to support these findings.
Messenger RNA (mRNA) based vaccines (Pfizer/BioNTech and Moderna) are highly effective at providing immunity against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). However, there is uncertainty about the duration of immunity, evolution of IgG antibody levels and IgG avidity (an index of antibody-antigen binding strength), and differences in the immune responses between vaccines. Here we performed a prospective pilot study of 71 previously COVID-19 free subjects upon receiving both doses of either the Pfizer (n = 54) or Moderna (n = 17) mRNA vaccine. Anti-spike protein receptor binding domain (RBD) IgG antibodies were measured longitudinally using a qualitative finger stick MidaSpot rapid test at the point-of-care for initial screening and a quantitative dry blood spot-based pGOLD laboratory test over ~ four months post-vaccination. The average anti-RBD IgG antibody levels peaked at ~ two weeks after the second dose vaccine and declined thereafter, while antibody avidity increased, suggesting antibody maturation. Moderna vaccine recipients compared to Pfizer vaccine recipients exhibited higher side effect severity, higher peak anti-RBD IgG antibody levels, and higher avidity up to the 90 days period. Differences in antibody levels diminished at ~ 120 days post-vaccination, in line with the similar efficacy observed in the two vaccines. The MidaSpot rapid test detected 100% anti-SARS-CoV-2 RBD positivity for fully vaccinated subjects in both Pfizer and Moderna cohorts post full vaccination but turned negative greater than 90 days post-vaccination for 5.4% of subjects in the Pfizer cohort, whose quantitative anti-IgG were near the minimum levels of the group. Immune responses were found to vary greatly among vaccinees. Personalized longitudinal monitoring of antibodies could be necessary to assessing the immunity duration of vaccinated individuals.
Introduction: Diabetes mellitus (DM) is associated with a greater risk of COVID-19 and an increased mortality when the disease is contracted. Metformin use in patients with DM is associated with less COVID-19-related mortality, but the underlying mechanism behind this association remains unclear. Hypothesis: We hypothesize that inhibitory effect of metformin on markers of inflammation, oxidative stress, and hypercoagulability is associate with better clinical outcomes. Methods: Patients with DM on metformin (n=34) and metformin naïve (n=41), and patients without DM (n=73) were enrolled within 48 hours of hospital admission and were diagnosed with COVID-19 by reverse transcription-polymerase chain reaction assay. Laboratory assessments were conducted within 48 hours of hospital admission. The chi-squared test was used to determine whether there was a significant difference in frequencies between disease groups; p< 0.05 was considered a significant difference between groups. Results: DM patients on metformin compared to naïve patients had a lower white blood cell count (p=0.02), d-dimer (p=0.04), urinary 11-dehydro thromboxane B 2 (p=0.01) and urinary liver-type fatty acid binding protein (p=0.03) levels and had lower sequential organ failure assessment score (p=0.0002), intubation rate (p=0.03), and a trend for fewer hospitalized days (p=0.13), lower in-hospital mortality (p= 0.12) and lower mortality plus nonfatal thrombotic event occurrences (p=0.10). Patients on metformin had similar clinical outcomes compared to patients without DM. Conclusion: In conclusion, metformin treatment in COVID-19 patients with DM was associated with lower markers of inflammation, renal ischemia, and thrombosis; and fewer hospitalized days and intubation requirement. Further focused studies are required to support these findings.
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