Matrix M H5N1 Vaccine Induces Cross-H5 Clade Humoral Immune Responses in a Randomized Clinical Trial and Provides Protection from Highly Pathogenic Influenza Challenge in Ferrets.

Background And Methods: Highly pathogenic avian influenza (HPAI) viruses constitute a pandemic threat and the development of effective vaccines is a global priority. Sixty adults were recruited into a randomized clinical trial and were intramuscularly immunized with two virosomal vaccine H5N1 (NIBRG-14) doses (21 days apart) of 30 μg HA alone or 1.5, 7.

Matrix-M adjuvanted virosomal H5N1 vaccine confers protection against lethal viral challenge in a murine model.

Background: A candidate pandemic influenza H5N1 vaccine should provide rapid and long-lasting immunity against antigenically drifted viruses. As H5N1 viruses are poorly immunogenic, this may require a combination of immune potentiating strategies. An attractive approach is combining the intrinsic immunogenicity of virosomes with another promising adjuvant to further boost the immune response.

Improved antigen yield in pandemic H1N1 (2009) candidate vaccine viruses with chimeric hemagglutinin molecules.

The candidate pandemic H1N1 vaccine virus NIBRG-121 was derived by reverse genetics and comprises the hemagglutinin (HA) and neuraminidase (NA) genes from A/California/7/2009 (CAL) on an A/Puerto Rico/8/34 (PR8) backbone. NIBRG-121 was found to grow poorly in eggs, compared to seasonal H1N1 candidate vaccine viruses. Based on our previous study with H5N1 candidate vaccine viruses, we generated two new viruses with chimeric PR8/CAL HA genes.

The development of vaccine viruses against pandemic A(H1N1) influenza.

Wild type human influenza viruses do not usually grow well in embryonated hens' eggs, the substrate of choice for the production of inactivated influenza vaccine, and vaccine viruses need to be developed specifically for this purpose. In the event of a pandemic of influenza, vaccine viruses need to be created with utmost speed. At the onset of the current A(H1N1) pandemic in April 2009, a network of laboratories began a race against time to develop suitable candidate vaccine viruses.