New technology to combine childhood vaccines in single jab
US researchers have developed a one-shot solution approach that could eventually allow for the delivery of every childhood vaccine in a single jab.
The technology stores the vaccine in microscopic capsules that release the initial dose and then boosters at specific times. It has been shown to work in mouse studies.
The researchers say the approach could help patients around the world.
There are a lot of childhood vaccinations, and below are some examples:
- Diphtheria, tetanus, whooping cough, polio, Hib and hepatitis B at eight, 12 and 16 weeks.
- Pneumococcal jab at eight weeks, 16 weeks and one year
- Men B vaccine at eight weeks, 16 weeks and one year
- Hib/Men C vaccine at one year
- Measles, mumps and rubella at one year and three years and four months
A team at Massachusetts Institute of Technology has designed a new type of micro-particle that could combine everything into a single jab. The particles look like miniature coffee cups that are filled with vaccine and then sealed with a lid.
Crucially, the design of the cups can be altered so they break down and spill their contents at just the right time.
One set of tests showed the contents could be released at exactly nine, 20 and 41 days after they were injected into mice.
Other particles that last for hundreds of days have also been developed, the researchers say.
The approach has not yet been tested on patients.
Professor Robert Langer, from MIT, said they are excited about the work.”For the first time, we can create a library of tiny, encased vaccine particles, each programmed to release at a precise, predictable time, so that people could potentially receive a single injection that, in effect, would have multiple boosters already built into it.
“This could have a significant impact on patients everywhere, especially in the developing world.”
The work differs from previous attempts, which slowly released medicines over a long period of time.
The idea is the short, sharp bursts of vaccine more closely mimic routine immunization programs.