MinervaX announces the award of a Eurostars Grant in collaboration with Bioneer (Denmark), The Danish Technical University (Denmark) and Telormedix (Switzerland) for the development of a LIPODEL adjuvant formulation of the NN GBS vaccine. Total grant budget amounts to 730,000 EUR.
MinervaX, a private biotech company developing a novel vaccine candidate against Group B Streptococcus, the leading cause of lifethreatening bacterial infections in newborn infants, announced that the company had been awarded a Eurostars Grant in collaboration with Bioneer (Denmark), The Danish Technical University (Denmark) and Telormedix (Switzerland) for the development of a LIPODEL adjuvant formulation of the NN GBS vaccine. Total grant budget amounts to 730,000 EUR.
According to Per Fischer, D.Phil., Chief Executive Officer of MinervaX, “The award of
the grant will help explore alternative adjuvants for the NN vaccine candidate”.
MinervaX is a Danish biotech company, established in 2010 in order to develop a novel vaccine candidate against Group B Streptococcus (GBS), invented at Lund University by Professor Gunnar Lindahl and his research team at Medical Microbiology.
GBS is responsible for nearly 50% of all severe bacterial infections in newborn infants. These infants are infected by GBS carried by the mother and an infected infant carries a significant risk of either death or long-term disability. Approximately 25 % of women are colonized with GBS in the vaginal flora, from which GBS may spread to the fetus before or during birth. This may lead to in uterus infections, still-births or infections in the infants shortly after birth, resulting in pneumonia, septicaemia and meningitis. GBS infection is also a growing concern in the elderly. A GBS vaccine therefore addresses a major medical need, and will help protect pregnant women,
newborn infants and the elderly against severe disease, long-term disability or death.
The vaccine candidate is based on a novel fusion protein (NN) containing the Nterminal domains of the Rib and Alpha proteins of GBS. The NN fusion protein is capable of eliciting a highly protective immune response in animal models of GBS infection, resulting in protection against the clinically most important strains of GBS.