15 Oct 2021
Cell-based influenza vaccine provides protection against the flu in children
Research at a Glance:
- An international study has found a cell-based influenza vaccine has effectively provided protection against the flu in children and adolescents
- The efficacy was 54.6 per cent, meeting the pre-specified endpoint for success and showing benefit across three influenza seasons and all eight participating countries
- The researchers stated that because cell-based flu vaccines were designed to produce an exact match to the World Health Organization’s selected influenza strains, they could potentially provide greater vaccine effectiveness than egg-based vaccines
A cell-based influenza vaccine has effectively provided protection against the flu in children and adolescents, according to a new study.
The research found the cell-based quadrivalent influenza vaccine (QIVc) produced a sufficient immune response in children aged two to 18 years. The lead investigator on the study was Professor Terry Nolan, head of the Vaccine and Immunisation Research Group (VIRGo) at the Murdoch Children’s Research Institute (MCRI), and the Peter Doherty Institute for Infection and Immunity at the University of Melbourne.
The findings, published in The New England Journal of Medicine, were the first on the absolute efficacy of a cell-based influenza vaccine in children as young as two years of age.
The randomized controlled study involved 4514 participants across Australia, Thailand, Estonia, Finland, Lithuania, Poland, Spain and the Philippines. The overall vaccine efficacy was 54.6 per cent, meeting the pre- specified endpoint for success and showing benefit across three influenza seasons and all eight countries.
QIVc uses a cell-based flu vaccine production process, an alternative to traditional egg-based manufacturing where reference influenza viruses are grown in the yolk of fertilised hens eggs. But this can result in mutation of the influenza virus leading to an antigenic mismatch between the circulating reference and inactivated strains contained within the seasonal flu vaccine.
Professor Nolan said because cell-based flu vaccines, grown in animal cells, were designed to produce an exact match to the World Health Organization’s selected influenza strains by avoiding egg-adapted changes, they could potentially provide greater effectiveness.
Professor Nolan said cell-based vaccine technology may also offer additional advantages including increased scalability and production speed in the event of an influenza pandemic.
In a typical year, 5–15 per cent of the world’s population contracts influenza and there are up to 650,000 respiratory-related deaths. Deaths most commonly occur in high-risk groups, including young children, the elderly and people with chronic health conditions.
The research was funded by UK-based Seqirus, which announced last year plans to build a cell-based manufacturing facility in Australia, which will be the first facility of its kind in the Southern Hemisphere.
Publication: Terence Nolan, Alexandre C. Fortanier, Brett Leav, Airi Poder, Lulu C. Bravo, Henryk T. Szymański, Marten Heeringa, Wim Vermeulen, Vince Matassa, Igor Smolenov and Jonathan M. Edelman. ‘Efficacy of a Cell- Culture–Derived Quadrivalent Influenza Vaccine in Children,’ The New England Journal of Medicine. DOI: 10.1056/NEJMoa2024848
About MCRI
The Murdoch Children's Research Institute (MCRI) is the largest child health research institute in Australia committed to making discoveries and developing treatments to improve child and adolescent health in Australia and around the world. They are pioneering new treatments, trialling better vaccines and improving ways of diagnosing and helping sick babies, children and adolescents. It is one of the only research institutes in Australia to offer genetic testing to find answers for families of children with previously undiagnosed conditions.
About Peter Doherty Institute for Infection and Immunity
Finding solutions to prevent, treat and cure infectious diseases and understanding the complexities of the immune system requires innovative approaches and concentrated effort. This is why the University of Melbourne – a world leader in education, teaching and research excellence – and The Royal Melbourne Hospital – an internationally renowned institution providing outstanding care, treatment and medical research – have partnered to create the Peter Doherty Institute for Infection and Immunity (Doherty Institute); a centre of excellence where leading scientists and clinicians collaborate to improve human health globally.
Funding:
The study was funded by Seqirus.