In a pandemic setting, rapid protection following vaccination is desirable. Due to the special circumstances surrounding an influenza pandemic, vaccine manufacturers, regulatory bodies and health authorities approached the development Navitoclax in vivo of pandemic influenza vaccines in many ways. All known formulations were tested as pandemic candidate vaccines, including live
attenuated and killed whole-virus vaccines, plus split-virion/subunit vaccines; the addition of adjuvants was also considered to reduce the amount of antigen in the vaccine, ie dose-sparing to maximise vaccine availability. Many of these vaccines were licensed for use in children, adults and the elderly during the 2009–2010 influenza pandemic. The adjuvanted split/subunit vaccines provided high levels of neutralising antibodies, exceeding the levels of antibody required by the licensing authorities in Europe and the USA with an important reduction of the antigen content and therefore offering the possibility to vaccinate more people. Overall, the live attenuated, whole killed and adjuvanted subunit pandemic influenza vaccines were immunogenic and well tolerated,
and were Cobimetinib mw made available in many parts of the world relatively quickly (see Chapter 5 – Vaccine development). We can use our understanding of immunology and the interactions between host and pathogen in order to manipulate antigens to make them more immunogenic for vaccines. This is especially relevant for weakly immunogenic antigens, such as macromolecules consisting of repeating structural units (eg polysaccharides), and antigens that are most immunogenic when presented as part of larger molecules. In response to the notion that influenza vaccines cause influenza-like symptoms, randomised, blinded studies have been performed in which trial volunteers were divided into
two groups: influenza vaccine and placebo (Nichol et al., 1995). The click here only differences in symptoms between groups were increased soreness in the arm and redness at the injection site among those who received the influenza vaccine. There were no differences in terms of body aches, fever, cough, runny nose or sore throat. Potent antigens tend to have several common properties; they are generally foreign to the host, contain protein to drive T helper responses, are of high molecular weight (ie are macromolecules) and chemically complex. The degree to which each of these characteristics is present in a molecule determines how antigenic it is under given circumstances, and how effectively it induces immune responses. Some species of bacteria (such as all of those that cause meningitis) are enclosed within polysaccharides forming bacterial capsules.