Post by Nadica (She/Her) on Sept 7, 2024 22:25:22 GMT
Azvudine versus Paxlovid for oral treatment of COVID-19 in Chinese patients with pre-existing comorbidities - Published May 17, 2023
Dear Editor,
Chinese guidelines grant the use of Azvudine and Paxlovid in COVID-19 patients, especially those with pre-existing comorbidities.1, 2 Recently, Gao Y et al. reported that Paxlovid appears to be superior to Azvudine in the virus clearance among general COVID-19 patients.3 However, a multicenter randomized controlled study demonstrated that Paxlovid showed no significant reduction in the risk of all-cause mortality on day 28 and the duration of virus clearance in hospitalized adult COVID-19 patients with pre-existing comorbidities.4 Several studies demonstrated that Azvudine could reduce the duration of virus clearance and improve the clinical prognosis in COVID-19 patients including those with pre-existing comorbidities.5, 6, 7, 8 Therefore, concerns arise about the clinical effectiveness of Azvudine versus Paxlovid in COVID-19 patients with pre-existing comorbidities on admission.
Here, we conducted a single-center, retrospective cohort study during the outbreak caused by the omicron from December 5, 2022 to January 31, 2023 in Xiangya Hospital of Central South University. The study included hospitalized patients with pre-existing comorbidities and confirmed diagnosis of SARS-CoV-2 infection who received Paxlovid or Azvudine. The patients with these conditions were excluded: 1) younger than 18 years; 2) received oxygen support or mechanical ventilation on the date of the admission; 3) not received any antiviral agents; 4) received both Azvudine and Paxlovid. The study was approved by the institutional review board of Xiangya Hospital of Central South University, and all the patients were anonymous and no need for individual informed consent.
The primary endpoint was a composite disease progression outcome which was defined as any of the following events: 1) non-invasive respiratory support; 2) initiation of endotracheal intubation; 3) intensive care unit admission; 4) all-cause death. The secondary endpoints were each of these individual disease progression outcomes. Patients were observed from the date of admission until discharge, occurrence of outcome event or death, whichever came first. We used propensity-score models conditional on baseline characteristics, and the probability of receiving Azvudine was estimated in an approach of calliper matching without replacement, with a calliper width of 0.2. The baseline covariates included age, sex, time from symptom onset to hospitalization, COVID-19 vaccination status, severity of COVID-19 on admission (severe cases were defined as having respiratory rate ≥30, or oxygen saturation ≤93%, or PaO2/FiO2 ≤300 mmHg, or lung infiltrates>50%), and concomitant treatments initiated at admission (systemic steroid and antibiotics). The standard mean differences (SMDs) were used to assess the balance of each baseline covariates between the groups before and after propensity-score matching which less than 0.1 indicating covariate was balanced.9 The incidence rates of outcome events were calculated as the number of outcome events / (sum of person × hospital days). Univariate Cox regression model was used to estimate a hazard ratio (HR) with 95% confidence interval (CI) for each result between the groups and subgroup analyses were conducted in each stratum of the aforementioned baseline characteristics to evaluate the robustness of the estimates. All statistical analyses were conducted with R version 4.2.1. P value less than 0.05 was statistically significant.
Among 2118 hospitalized COVID-19 patients, 245 Azvudine recipients and 394 Paxlovid recipients with pre-existing comorbidities were eligible for inclusion ( Fig. 1A). After propensity-score matching, we finally included 228 Azvudine recipients and 228 Paxlovid recipients, and the baseline characteristics of patients were balanced between the two groups, with SMDs lower than 0.1 (Fig. 1B, C). Frequencies of symptoms and laboratory parameters were comparable between the groups in general (Tables S1, S2). The crude incidence rate of composite disease progression outcome was 6.662 per 1000 person-days in patients treated with Azvudine versus 13.493 per 1000 person-days in the Paxlovid group (P = 0.029). There were no statistical differences between these two groups in the rates of all-cause death (P = 0.183), non-invasive respiratory support (P = 0.068), initiation of endotracheal intubation (P = 0.144), intensive care unit admission (P = 0.989) ( Fig. 2A). Cumulative hazard analysis demonstrated that patients treated with Azvudine had lower risk of composite disease progression outcome than those treated with Paxlovid (hazard ratio
: 0.51; 95% CI: 0.28–0.95, P = 0.029) (Fig. 2B). Subgroup analyses indicated the robustness of the composite disease progression outcomes, with point estimates of HRs ranging from 0.28–0.95, and the results retained significance among male recipients, patients under the age of 65 years, those receiving the hospitalization beyond 5 days since onset, those with severe COVID-19 at admission and those received antibiotic treatment at admission (Fig. 2C).
In this retrospective cohort study, we found that Azvudine was associated with a significantly reduced risk of composite disease progression outcome compared with Paxlovid in the COVID-19 patients with pre-existing comorbidities. Notably, Azvudine showed substantial clinical benefit than Paxlovid among men, patients under the age of 65 years, those receiving the hospitalization beyond 5 days since onset, those with severe COVID-19 on admission and those received antibiotic treatment on admission. Paxlovid has been reported to significantly reduce the hospitalization and death rates in patients over 65 years of age but not those under 65 years of age, compared with matched controls.10 Our results support the use of Azvudine in those under 65 years of age.
To our knowledge, this is the first study to evaluate the clinical effectiveness of Azvudine versus Paxlovid in COVID-19 patients with pre-existing comorbidities on admission. Admittedly, our study also has some unavoidable limitations. Firstly, although the data from all patients with COVID-19 were collected continuously and adjusted for possibility of selection bias and confounding factors associated with a high risk of severe COVID-19, we could not rule out the possibility of selection bias or confounding of indications. Secondly, this is a retrospective cohort study with a single center and small sample in Hunan province, and whether our findings are applicable to other regions and different ethnic groups remains to be verified.
In summary, our findings, to some extent, indicate that Azvudine is more effective than Paxlovid in treating hospitalized COVID-19 patients with pre-existing comorbidities.
Dear Editor,
Chinese guidelines grant the use of Azvudine and Paxlovid in COVID-19 patients, especially those with pre-existing comorbidities.1, 2 Recently, Gao Y et al. reported that Paxlovid appears to be superior to Azvudine in the virus clearance among general COVID-19 patients.3 However, a multicenter randomized controlled study demonstrated that Paxlovid showed no significant reduction in the risk of all-cause mortality on day 28 and the duration of virus clearance in hospitalized adult COVID-19 patients with pre-existing comorbidities.4 Several studies demonstrated that Azvudine could reduce the duration of virus clearance and improve the clinical prognosis in COVID-19 patients including those with pre-existing comorbidities.5, 6, 7, 8 Therefore, concerns arise about the clinical effectiveness of Azvudine versus Paxlovid in COVID-19 patients with pre-existing comorbidities on admission.
Here, we conducted a single-center, retrospective cohort study during the outbreak caused by the omicron from December 5, 2022 to January 31, 2023 in Xiangya Hospital of Central South University. The study included hospitalized patients with pre-existing comorbidities and confirmed diagnosis of SARS-CoV-2 infection who received Paxlovid or Azvudine. The patients with these conditions were excluded: 1) younger than 18 years; 2) received oxygen support or mechanical ventilation on the date of the admission; 3) not received any antiviral agents; 4) received both Azvudine and Paxlovid. The study was approved by the institutional review board of Xiangya Hospital of Central South University, and all the patients were anonymous and no need for individual informed consent.
The primary endpoint was a composite disease progression outcome which was defined as any of the following events: 1) non-invasive respiratory support; 2) initiation of endotracheal intubation; 3) intensive care unit admission; 4) all-cause death. The secondary endpoints were each of these individual disease progression outcomes. Patients were observed from the date of admission until discharge, occurrence of outcome event or death, whichever came first. We used propensity-score models conditional on baseline characteristics, and the probability of receiving Azvudine was estimated in an approach of calliper matching without replacement, with a calliper width of 0.2. The baseline covariates included age, sex, time from symptom onset to hospitalization, COVID-19 vaccination status, severity of COVID-19 on admission (severe cases were defined as having respiratory rate ≥30, or oxygen saturation ≤93%, or PaO2/FiO2 ≤300 mmHg, or lung infiltrates>50%), and concomitant treatments initiated at admission (systemic steroid and antibiotics). The standard mean differences (SMDs) were used to assess the balance of each baseline covariates between the groups before and after propensity-score matching which less than 0.1 indicating covariate was balanced.9 The incidence rates of outcome events were calculated as the number of outcome events / (sum of person × hospital days). Univariate Cox regression model was used to estimate a hazard ratio (HR) with 95% confidence interval (CI) for each result between the groups and subgroup analyses were conducted in each stratum of the aforementioned baseline characteristics to evaluate the robustness of the estimates. All statistical analyses were conducted with R version 4.2.1. P value less than 0.05 was statistically significant.
Among 2118 hospitalized COVID-19 patients, 245 Azvudine recipients and 394 Paxlovid recipients with pre-existing comorbidities were eligible for inclusion ( Fig. 1A). After propensity-score matching, we finally included 228 Azvudine recipients and 228 Paxlovid recipients, and the baseline characteristics of patients were balanced between the two groups, with SMDs lower than 0.1 (Fig. 1B, C). Frequencies of symptoms and laboratory parameters were comparable between the groups in general (Tables S1, S2). The crude incidence rate of composite disease progression outcome was 6.662 per 1000 person-days in patients treated with Azvudine versus 13.493 per 1000 person-days in the Paxlovid group (P = 0.029). There were no statistical differences between these two groups in the rates of all-cause death (P = 0.183), non-invasive respiratory support (P = 0.068), initiation of endotracheal intubation (P = 0.144), intensive care unit admission (P = 0.989) ( Fig. 2A). Cumulative hazard analysis demonstrated that patients treated with Azvudine had lower risk of composite disease progression outcome than those treated with Paxlovid (hazard ratio
: 0.51; 95% CI: 0.28–0.95, P = 0.029) (Fig. 2B). Subgroup analyses indicated the robustness of the composite disease progression outcomes, with point estimates of HRs ranging from 0.28–0.95, and the results retained significance among male recipients, patients under the age of 65 years, those receiving the hospitalization beyond 5 days since onset, those with severe COVID-19 at admission and those received antibiotic treatment at admission (Fig. 2C).
In this retrospective cohort study, we found that Azvudine was associated with a significantly reduced risk of composite disease progression outcome compared with Paxlovid in the COVID-19 patients with pre-existing comorbidities. Notably, Azvudine showed substantial clinical benefit than Paxlovid among men, patients under the age of 65 years, those receiving the hospitalization beyond 5 days since onset, those with severe COVID-19 on admission and those received antibiotic treatment on admission. Paxlovid has been reported to significantly reduce the hospitalization and death rates in patients over 65 years of age but not those under 65 years of age, compared with matched controls.10 Our results support the use of Azvudine in those under 65 years of age.
To our knowledge, this is the first study to evaluate the clinical effectiveness of Azvudine versus Paxlovid in COVID-19 patients with pre-existing comorbidities on admission. Admittedly, our study also has some unavoidable limitations. Firstly, although the data from all patients with COVID-19 were collected continuously and adjusted for possibility of selection bias and confounding factors associated with a high risk of severe COVID-19, we could not rule out the possibility of selection bias or confounding of indications. Secondly, this is a retrospective cohort study with a single center and small sample in Hunan province, and whether our findings are applicable to other regions and different ethnic groups remains to be verified.
In summary, our findings, to some extent, indicate that Azvudine is more effective than Paxlovid in treating hospitalized COVID-19 patients with pre-existing comorbidities.