WHY ORAL VACCINES?

Quick answers to frequently asked questions

WHY

The international spread of infectious diseases, such as Covid-19, constitutes a global health security problem. The best strategy to prevent them is vaccination, which is one of the most cost-effective health interventions. Thanks to vaccination, many diseases have been controlled and, in some cases, eradicated. However, fear of the injection, due to pain, is one of the many factors that lead people to delay or refuse vaccinations and decrease vaccination rates.

HOW

The new patent filed by VacciMed-oral GmbH is based on the use of Variable Surface Proteins or VSPs of the Giardia lamblia parasite, which contain unique properties as an original strategy for the generation of oral vaccines due to their outstanding resistance to proteases and pH changes, characteristic of the gastrointestinal tract, and to their high immunogenicity. This innovative development allows combining the adjuvant and protective properties of VSPs with antigens of other disease-causing agents to generate new and efficient vaccines for oral administration to reduce morbidity and mortality due to infectious diseases, including SARS-COV-2, which stalks mankind.

Finally, when vaccines are administered orally, they are exposed to the mucosal immune system, which generates a systemic response, as well as a response in mucous membranes (gastrointestinal tract, respiratory tract, etc.) which are the main site of entry of SARS-COV-2, among others, conferring a more complete protection. In addition, a valuable fact to highlight is that VLPs are classified as subunit vaccines since they do not contain the entire microorganism, but lack the genetic material of the virus and are therefore safer than attenuated or inactivated vaccines, allowing their application to immuno-compromised persons (newborns, pregnant or immuno-deficient persons).

Examples of such vaccines are those reported against Influenza Virus (Flu) (Nature Communications, 2019) and SARS-CoV-2 (Covid-19) (Frontiers in Immunology, 2022), which have demonstrated excellent results in animal models regarding not only protection against subsequent infections but also inhibition of transmission of such viruses among susceptible hosts, all due to the generation of a strong mucosal immunity.

The advantages of oral administration of other common (since long-time approved) vaccines are obvious: There is no fear of needles and syringes, and there is no need to inject the vaccine, thus increasing the acceptance of vaccination in the population. Disposable syringes are not required, and the cold chain is usually not necessary – both of which are considerable cost advantages – all factors that would be particularly important for developing countries. We assume that once the process for converting a commonly used vaccine that has so far been injected into an oral vaccine has been approved, the following process for other already approved vaccines will be significantly simplified.

The versatile oral vaccine platform could also come into use in the veterinary field, e.g., to give vaccine protection against viral diseases in fish and poultry farms. The vaccine, in these cases, can be mixed into the feed. First trials with this method were promising in chicken farming (vaccine protection against avian influenza). Other applications in the veterinary field are highly required.

The developed and patented strategy has been shown to generate long-lasting systemic and mucosal protective responses. The oral route of administration provides many benefits over traditional injectable vaccination: