Efficacy and Safety of an mRNA Seasonal Influenza Vaccine in Adults.
Summary
Efficacy and Safety of an mRNA Seasonal Influenza Vaccine in Adults. Original Article Abstract Background Seasonal influenza causes substantial illness and death in adults 50 years of age or older, even with current vaccines. An investigational messenger RNA (mRNA)-based vaccine called mRNA-1010 encodes hemagglutinin glycoproteins from World Health Organization-recommended influenza strains. Methods In this phase 3, double-blind, active-controlled trial, we randomly assigned adults 50 y
Content
# Efficacy and Safety of an mRNA Seasonal Influenza Vaccine in Adults.
*Original Article*
# Abstract
## Background
Seasonal influenza causes substantial illness and death in adults 50
years of age or older, even with current vaccines. An investigational messenger
RNA (mRNA)-based vaccine called mRNA-1010 encodes hemagglutinin glycoproteins
from World Health Organization-recommended influenza strains.
## Methods
In this phase 3, double-blind, active-controlled trial, we randomly
assigned adults 50 years of age or older to receive trivalent mRNA-1010 (37.5
μg, which includes 12.5 μg of each strain) or a licensed standard-dose
comparator. The primary efficacy end point was relative vaccine efficacy against
reverse-transcriptase-polymerase-chain-reaction (RT-PCR)-confirmed,
protocol-defined influenza-like illness caused by influenza A or B, from at
least 14 days after vaccination through the end of the influenza season.
Hypothesis testing was conducted hierarchically to assess noninferiority (lower
boundary of the 95% confidence interval [CI], >-10%), superiority (lower
boundary of the 95% CI, >0%), and a higher level of superiority (lower boundary
of the 95% CI, >9.1%).
## Results
A total of 40,703 participants received mRNA-1010 (20,350 participants)
or the standard-dose comparator (20,353 participants); the median follow-up was
181 days (range, 1 to 227). RT-PCR-confirmed, protocol-defined influenza-like
illness was observed in 411 of 20,179 recipients of mRNA-1010 (2.0%) and 557 of
20,124 recipients of the standard-dose comparator (2.8%), which corresponds to a
relative vaccine efficacy of 26.6% (95% CI, 16.7 to 35.4), thereby meeting the
criteria for noninferiority, superiority, and higher-level superiority.
Solicited adverse reactions were more frequent with mRNA-1010 than with the
standard-dose comparator (injection-site pain in 65.8% vs. 29.8%, fatigue in
45.1% vs. 20.3%, headache in 37.8% vs. 18.0%, and myalgia in 35.4% vs. 11.6%);
most reactions were mild to moderate and transient. Serious adverse events were
reported in 2.2% of the recipients of mRNA-1010 (with three events considered by
the investigator to be vaccine-related) and in 1.9% of the recipients of the
standard-dose comparator (with two events considered by the investigator to be
vaccine-related).
## Conclusions
In this trial, mRNA-1010 was superior to standard-dose licensed
vaccines for prevention of RT-PCR-confirmed, protocol-defined influenza-like
illness in adults 50 years of age or older. Solicited adverse reactions were
more frequent with mRNA-1010. (Funded by Blackstone Life Sciences and Moderna;
Fluent ClinicalTrials.gov number, NCT06602024.).
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DOI: 10.1056/NEJMoa2516491