"The need to reduce the use of antibiotics to fight diseases in livestock animals is widely accepted, and translates in increased environmental, social and legal pressure. Cost-effective vaccination as an alternative to antibiotic treatment has become the focus of most of the industry and European regulators. In bovine cattle breeding, one of the diseases with most economical and environmental impact is Bovine Viral Diarrhoea (BVD). This disease is the most common viral disease of cattle in Europe. The clinical symptoms are difficult to identify because they are very variable or they can also go undetected (subclinical disease). Despite this, the BVD causes very high economic losses in all countries with developed bovine cattle breeding, making it a real ""time bomb."" For example, Animal Health Ireland estimates that the annual cost of BVD for the Irish hut is 102 million Euros.
The control and prevention of bovine viral diarrhea virus (BVDV) infections has substantial challenges. Viral genetic variation, persistent infections, and viral tropism for immune cells have complicated disease control strategies. Vaccination has, however, provided an effective tool to prevent acute systemic infections and increase reproductive efficiency through fetal protection. The current unmet need is a broad spectrum, cost-effective and safe BVDV vaccine that avoids the potential risks related to attenuated vaccines (the current gold standard) and allows the discrimination of immunized animals from infected animals to facilitate integrated, “campaign-driven” approaches to fight the disease.
Aquilon’s vaccine, based on proprietary Virus-Like Particle technology, will be a recombinant, non-live vaccine, polyantigenic (covering type 1 and type 2 infections), with tagging attributes (DIVA, Differentiation of Vaccinated from Infected Animals). In this context, the main objective of this phase I project was to confirm the technical, commercial and regulatory feasibility for a novel non-live, poly-antigenic, tagged, recombinant vaccine against the Bovine Viral Diarrhoea virus (BVDV).
Results from the economic risk-benefit analysis combining prospective regulatory costs and timelines, manufacturing scale up and prospective cost of goods, technical feasibility and commercial interest indicate that the project represents a good investment opportunity satisfying a relevant veterinarian unmet need with a strong impact in the society beyond the economics of the livestock animal industry.
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