key: cord-0944616-1zqi0t1n authors: Rinott, Ehud; Youngster, Ilan; Lewis, Yair E. title: Reduction in COVID-19 Patients Requiring Mechanical Ventilation Following Implementation of a National COVID-19 Vaccination Program — Israel, December 2020–February 2021 date: 2021-03-05 journal: MMWR Morb Mortal Wkly Rep DOI: 10.15585/mmwr.mm7009e3 sha: caca75228ec851011ee7608fbceb14413348257f doc_id: 944616 cord_uid: 1zqi0t1n nan On February 26, 2021, this report was posted as an MMWR Early Release on the MMWR website (https://www.cdc.gov/mmwr). The availability of COVID-19 vaccines represents an opportunity to mitigate the effects of the global pandemic. Achieving high vaccination coverage through intensive vaccination campaigns has the potential to substantially reduce COVID-19-associated morbidity and mortality. Clinical trials have demonstrated the efficacy of COVID-19 vaccines in preventing mild and severe COVID-19 in a controlled setting. However, clinical trials are not designed to assess the population impact of vaccination in a real-world setting (1, 2) . Israel initiated a national vaccination campaign using the Pfizer-BioNTech BNT162b2 (Pfizer-BioNTech) vaccine in December 2020, prioritizing persons aged >60 years, health care workers, and persons with underlying medical conditions. By February 2021, 2-dose vaccination coverage among persons aged ≥70 years was 84%. To assess the effect of COVID-19 vaccination on the occurrence of severe disease, an ecological study was conducted. Requiring mechanical ventilation was used as a proxy for severe COVID-19. The number of COVID-19 patients aged ≥70 years (who had the highest 2-dose vaccination coverage, 84.3%) requiring mechanical ventilation was compared with that of patients aged <50 years, who had the lowest 2-dose vaccination coverage (9.9%). Since implementation of the second dose of the vaccination campaign, the ratio of COVID-19 patients requiring mechanical ventilation aged ≥70 years to those aged <50 years has declined 67%, from 5.8:1 during October-December 2020 to 1.9:1 in February 2021. These findings provide preliminary evidence of the effectiveness of vaccines in preventing severe cases of COVID-19 at the national level in Israel. Receipt of COVID-19 vaccines by eligible persons can help limit spread of disease and potentially reduce the occurrence of severe disease. The first case of COVID-19 in Israel, a country with a population of approximately 9 million, was reported in February 2020. As of February 9, 2021, approximately 700,000 cases and 5,200 deaths had been reported (3). Nonpharmaceutical interventions have included three national stay-at-home orders, † multiple rounds of school closures, restrictions on commercial activity and travel, and a mask mandate, among others. The most recent * These authors contributed equally to this report. † The dates of the three stay-at-home orders were March 12-April 19, 2020; September 18-October 18, 2020; and January 8-February 7, 2021. stay-at-home order was implemented on January 8, 2021, amid a nationwide surge in cases (4). On December 20, 2020, Israel initiated a national vaccination program against COVID-19, using the Pfizer-BioNTech vaccine and prioritizing persons aged ≥60 years, health care workers, and persons with chronic conditions that increase risk for infection or severe disease (5) . To assess the impact of COVID-19 vaccination on the occurrence of severe COVID-19 at the population level an ecological study was conducted using the number of COVID-19 patients requiring mechanical ventilation as a proxy for severe disease. The number of COVID-19 patients requiring mechanical ventilation aged ≥70 years, who had the highest 2-dose COVID-19 vaccination coverage, was compared with the number of those aged <50 years, who had the lowest 2-dose coverage. COVID-19 vaccine administration data during December 20, 2020-February 9, 2021, were obtained from publicly available Israel Ministry of Health data (6) . Vaccinated persons with missing age data were excluded from the analysis. Daily numbers of COVID-19 patients receiving mechanical ventilation between October 2, 2020, and February 9, 2021, (including during the second and third stay-at-home orders) were obtained from the Israel Ministry of Health COVID-19 dashboard using a publicly available repository. § Vaccination status is not available for individual patients in this repository. Population data were drawn from the Israel Central Bureau of Statistics as of the end of 2019. By February 9, 2021, a total of 3,606,858 persons had received the first vaccine dose, and among those, 2,223,176 (62%) had received the second dose. Two-dose COVID-19 vaccination coverage among persons aged ≥70 years, 60-69 years, 50-59 years, and <50 years was 84.3%, 69.0%, 50.2%, and 9.9%, respectively ( Figure 1 ). During October 2, 2020-February 9, 2021, the median daily numbers of COVID-19 patients aged <50 years and ≥70 years who required mechanical ventilation were 15 (range = 6-63) and 84 (range = 45-127), respectively. During October 8-December 30, 2020, the mean ratio of ventilated patients aged ≥70 years to those aged <50 years was 5.8:1 (99% confidence interval = 5.5-6.1; range = 4.2-8.5). During the last week of January 2021, although the average daily number of ventilated patients aged ≥70 years had begun § https://github.com/dancarmoz/israel_moh_covid_dashboard_data What are the implications for public health practice? These findings provide preliminary evidence of the effectiveness of vaccines in preventing severe cases of COVID-19 at the national level in Israel. to decline, the average daily number of ventilated patients aged <50 years was still increasing (Figure 2 ). By February 9, 2021, the 7-day rolling average number of ventilated patients aged ≥70 years was 109, and among those aged <50 years was 57.7 (ratio = 1.9:1), representing a 67% decrease in the ratio compared with that during October 8-December 30, 2020. These findings suggest a possible impact of the nationwide COVID-19 vaccination campaign in Israel on reducing severe COVID-19 requiring mechanical ventilation. The Israeli national vaccination campaign (5) , which was initiated on December 20, 2020, in the midst of a nationwide surge of COVID-19 cases, was followed by a strict national stay-at-home order starting on January 8, 2021 (4). Vaccine rollout was rapid, and because older age groups were prioritized for vaccination (5) , it was feasible to compare the number of patients requiring mechanical ventilation between the oldest and youngest age groups, whose COVID-19 vaccination coverage rates differed the most. The percentage of COVID-19 patients aged ≥70 years requiring mechanical ventilation in Israel fluctuated during October-December 2020 but has considerably and consistently decreased after implementation of the vaccination campaign prioritizing older adults. The decline in the ratio of persons aged ≥70 years to those aged <50 years requiring mechanical ventilation began around the time of commencement of administration of the second vaccine dose (January 10, 2021). This might reflect the effects of the first dose, an observation that is consistent with the Pfizer-BioNTech vaccine phase 3 results, which demonstrated partial efficacy after the first dose (1) . Considering the vaccination rate and the expected vaccine efficacy, this study provides preliminary evidence at the population level for the reduction in risk for severe COVID-19, as manifested by need for mechanical ventilation, after vaccination with the Pfizer-BioNTech COVID-19 vaccine. These data are consistent with preliminary reports showing a reduction in COVID-19 cases and severe cases in the vaccinated population and a reduction in viral load in vaccinated persons compared with that in unvaccinated persons. ¶, ** , † † Taken together, these results suggest reduced rates of severe COVID-19 following vaccination. The findings in this report are subject to at least three limitations. First, this was an ecological analysis that relied on preliminary and aggregated data and might be subject to delays in reporting of COVID-19 cases. Second, the longitudinal and observational nature of this study limited the ability to account for different concomitant effects, including development and spread of novel variants, the general increase in COVID-19 cases and national stay-at-home orders. However, by analyzing the percentage of cases by age group (accounting for vaccination rates), these results are unlikely to be influenced by the overall incidence in the population. Finally, there were possible differences in adherence to mitigation measures between the age groups. To address this limitation, the analysis period was extended to include an earlier period with a stay-at-home order (September-October 2020). Many countries are currently conducting national COVID-19 vaccine campaigns. The findings from this study provide preliminary but important evidence of the effectiveness of vaccines in preventing severe cases of COVID-19 at the national level in Israel. Receipt of COVID-19 vaccines by eligible persons can help limit spread of disease and potentially reduce the occurrence of severe disease. Corresponding author: Yair E. Lewis, yairlewis@gmail.com. C4591001 Clinical Trial Group. Safety and efficacy of the BNT162b2 mRNA Covid-19 vaccine COVE Study Group. Efficacy and safety of the mRNA-1273 SARS-CoV-2 Vaccine State of Israel Ministry of Health. COVID-19 dashboard. Jerusalem, Israel: State of Israel Ministry of Health State of Israel Ministry of Health. The government approved the Ministry of Health new restrictions in addition to the ones in force State of Israel Ministry of Health. The COVID-19 vaccine operation launched today. Jerusalem, Israel: State of Israel Ministry of Health State of Israel Ministry of Health. COVID-19 databases. Jerusalem, Israel: State of Israel Ministry of Health All authors have completed and submitted the International Committee of Medical Journal Editors form for disclosure of potential conflicts of interest. Ilan Youngster reports consulting fees from Mybiotix, Ltd. No other potential conflicts of interest were disclosed.