Results: "On losartan, 24/30 (80%) experienced an adverse event as opposed to 29/30 (97%) of controls, with a lower average number of adverse events on losartan relative to control (2.2 vs 3.3). Using Poisson regression and controlling for age, sex, race, date of enrollment, disease severity at enrollment, and history of high-risk comorbidities, the incidence rate ratio of adverse events on losartan relative to control was 0.69 (95% CI: 0.49 - 0.97)
Conclusions: Losartan appeared safe for COVID-19-related acute respiratory compromise. To assess true efficacy, randomized trials are needed."
Results: From April-November 2020, 117 participants were randomized 58 to losartan and 59 to placebo. The primary outcome did not differ significantly between the two arms based on Barnard’s test [losartan arm: 3 events (5.2%; 95% CI 1.8-14.1%) versus placebo arm: 1 event(1.7% 95% CI 0.01-9.0%); proportion difference -3.5% (95% CI -12.7-4.5%); p=0.32]. Functional status, self-reported dyspnea, maximum daily temperatures, and viral load were not significantly different between treatment groups. Due to a lower than expected hospitalization rate and low likelihood of a clinically important treatment effect, the trial was terminated early.
Results: No statistically significant difference in the primary or secondary outcomes between the groups were seen. The small trial may have been unpowered to detect benefits of losartan, as there appeared to be non-statistically significant improvements in the losartan group. Additionally, as noted by the authors, in an observational study, amlodipine was associated with improved outcomes in COVID-19.
Results: "In this pilot study we demonstrate that losartan was well-tolerated among hospitalized patients with COVID-19 and hypertension...There were suggestions of lung protection with losartan use, including the observation of an improvement in S/F ratio during hospitalization in the prospective cohort, however these findings would need validation through a properly designed randomized clinical trial (RCT)"
"The primary endpoint of the trial was a composite endpoint of all-cause death or invasive mechanical ventilation up to 28 days or until hospital discharge. The data showed that fewer patients treated with APN01 (n=9) died or received invasive ventilation compared to placebo (n=12), although statistical significance was not achieved due to the low total number of events. Standard of care has improved dramatically since study initiation, resulting in fewer deaths and less use of nvasive mechanical ventilation than at the time of design of the study.
Secondary objectives included mechanical ventilator-free days, change in viral RNA load, improvements according to the WHO 11-Point score system and the evaluation of relevant biomarker changes following treatment with APN01. Treatment with APN01 was safe and well tolerated and no drug-related severe adverse events were observed during the study. The data demonstrated a statistically significant improvement in mechanical ventilator-free days in alive patients and reduction in viral load in the group treated with APN01 compared to placebo. APN01 also demonstrated a positive impact on key biomarkers of the renin angiotensin system (RAS), demonstrating in vivo efficacy of the drug."
Results: 106 patients underwent randomization (51 in the C21 group and 55 in the placebo group). At day 14 after start of treatment, the proportion of patients still requiring supplemental oxygen was significantly reduced by 90% in the C21 group compared to the placebo group (p=0.003). Moreover, fewer patients required mechanical ventilation (one C21 patient and four placebo patients), and C21 was associated with a numerical reduction in the mortality rate (one and three deaths in the C21 and placebo group, respectively). Treatment with C21 was safe and well tolerated.
Results: "On losartan, 24/30 (80%) experienced an adverse event as opposed to 29/30 (97%) of controls, with a lower average number of adverse events on losartan relative to control (2.2 vs 3.3). Using Poisson regression and controlling for age, sex, race, date of enrollment, disease severity at enrollment, and history of high-risk comorbidities, the incidence rate ratio of adverse events on losartan relative to control was 0.69 (95% CI: 0.49 - 0.97)
Conclusions: Losartan appeared safe for COVID-19-related acute respiratory compromise. To assess true efficacy, randomized trials are needed."
Results: From April-November 2020, 117 participants were randomized 58 to losartan and 59 to placebo. The primary outcome did not differ significantly between the two arms based on Barnard’s test [losartan arm: 3 events (5.2%; 95% CI 1.8-14.1%) versus placebo arm: 1 event(1.7% 95% CI 0.01-9.0%); proportion difference -3.5% (95% CI -12.7-4.5%); p=0.32]. Functional status, self-reported dyspnea, maximum daily temperatures, and viral load were not significantly different between treatment groups. Due to a lower than expected hospitalization rate and low likelihood of a clinically important treatment effect, the trial was terminated early.
Results: No statistically significant difference in the primary or secondary outcomes between the groups were seen. The small trial may have been unpowered to detect benefits of losartan, as there appeared to be non-statistically significant improvements in the losartan group. Additionally, as noted by the authors, in an observational study, amlodipine was associated with improved outcomes in COVID-19.
Results: "In this pilot study we demonstrate that losartan was well-tolerated among hospitalized patients with COVID-19 and hypertension...There were suggestions of lung protection with losartan use, including the observation of an improvement in S/F ratio during hospitalization in the prospective cohort, however these findings would need validation through a properly designed randomized clinical trial (RCT)"
"The primary endpoint of the trial was a composite endpoint of all-cause death or invasive mechanical ventilation up to 28 days or until hospital discharge. The data showed that fewer patients treated with APN01 (n=9) died or received invasive ventilation compared to placebo (n=12), although statistical significance was not achieved due to the low total number of events. Standard of care has improved dramatically since study initiation, resulting in fewer deaths and less use of nvasive mechanical ventilation than at the time of design of the study.
Secondary objectives included mechanical ventilator-free days, change in viral RNA load, improvements according to the WHO 11-Point score system and the evaluation of relevant biomarker changes following treatment with APN01. Treatment with APN01 was safe and well tolerated and no drug-related severe adverse events were observed during the study. The data demonstrated a statistically significant improvement in mechanical ventilator-free days in alive patients and reduction in viral load in the group treated with APN01 compared to placebo. APN01 also demonstrated a positive impact on key biomarkers of the renin angiotensin system (RAS), demonstrating in vivo efficacy of the drug."
Results: 106 patients underwent randomization (51 in the C21 group and 55 in the placebo group). At day 14 after start of treatment, the proportion of patients still requiring supplemental oxygen was significantly reduced by 90% in the C21 group compared to the placebo group (p=0.003). Moreover, fewer patients required mechanical ventilation (one C21 patient and four placebo patients), and C21 was associated with a numerical reduction in the mortality rate (one and three deaths in the C21 and placebo group, respectively). Treatment with C21 was safe and well tolerated.