Contracts to speed further development of two promising Ebola vaccines, known as rVSV-ZEBOV-GP and ChAd3 EBO-Z, could pave the way for commercial scale production of millions of vaccine doses if clinical trials prove safety and efficacy, officials of the U.S. Department of Health and Human Services’ Office of the Assistant Secretary for Preparedness and Response (ASPR) announced.
Development of both vaccines is being accelerated because of the public health emergency of international concern in West Africa. The funding was designated in the fiscal year 2015 continuing resolution for development of Ebola products.
Both contracts are sponsored by the ASPR’s Biomedical Advanced Research and Development Authority (BARDA). One contract is with GlaxoSmithKline in Philadelphia for 31 months and $12.9 million with options that would provide an additional $16,000. The other contract is with BioProtection Systems Corporation of Ames, Iowa, a wholly owned subsidiary of NewLink Genetics Corporation, for approximately 14 months and $30 million. It has options to extend the agreement 10 months and provide an additional $41 million.
“While we’re encouraged that traditional public health measures and supportive medical care are starting to control the outbreak in West Africa, the need for vaccines and therapeutics remains an urgent priority,” says BARDA director Robin Robinson, PhD.
Under the agreements, GlaxoSmithKline will establish and validate master cell banks and virus seeds, which are the initial materials to start the manufacturing process. The company also will scale up the vaccine manufacturing process from the current pilot scale, which produces thousands of vaccine doses for early development activities, to commercial scale capable of producing millions of vaccine doses.
The manufacturing scale-up of any vaccine is a complex process and differs greatly from producing the small number of doses typically used for preclinical research or early stage clinical trials. Scale-up activities usually are undertaken in later phases of development as new drugs and vaccines move through clinical trials and are prepared for the commercial market. Normally this takes two to three years. In the GSK project, scale-up manufacturing will be compressed to nine to 12 months.
Under the second contract, BioProtection Systems will conduct clinical trials to determine the lowest dose at which the vaccine generates an effective immune response in people. Defining the lowest dose at which the vaccine works will enable the greatest number of people to be vaccinated. The company also will develop a more robust and reproducible vaccine manufacturing process. Options under the contract include scale-up manufacturing from pilot scale used in clinical trials to commercial scale.
Activities under both contracts will be critical to ensuring that there are sufficient doses if a vaccination campaign in West Africa becomes feasible and is determined to be an effective strategy. Such an option first would require that other clinical trials find the vaccines work and are safe.
In addition, BARDA will support development by both companies of vaccine formulations to improve productivity and stability, including a formulation similar to freeze-drying, so the vaccine does not have to be kept frozen. This would make the vaccine easier to transport, store, and use in the hot West African climate. Both companies also will improve assays for their experimental vaccines, which are critical analytical tests for determining such things as vaccine potency, as required by U.S. Food and Drug Administration.
The BARDA-sponsored projects with both companies complement the Phase 1 clinical trials supported by the National Institutes of Health, and mark a transition to the next phase of vaccine development and planning for outbreak control in West Africa. Additional clinical trials of both vaccines are expected to begin with volunteers in West Africa in early 2015 to determine whether the vaccine prevents Ebola virus disease.
HHS is the principal federal agency for protecting the health of all Americans and providing essential human services, especially for those who are least able to help themselves.
ASPR leads HHS in preparing the nation to respond to and recover from adverse health effects of emergencies, supporting communities’ ability to withstand adversity, strengthening health and response systems, and enhancing national health security. Within ASPR, BARDA develops and procures medical countermeasures – vaccines, medicines, diagnostics and medical equipment – that address the public health and medical consequences of chemical, biological, radiological, and nuclear (CBRN) accidents, incidents and attacks, pandemic influenza, and emerging infectious diseases.