A clinical trial of a new Ebola vaccine (ChAd3-EBO-Z) that resulted from an unprecedented global consortium assembled at the behest of the World Health Organization has found that it is well-tolerated and stimulates strong immune responses in adults in Mali, West Africa and in the U.S., according to a study published today in the journal Lancet Infectious Disease.
If the vaccine is ultimately found to be safe and effective, it could offer crucial protection for contacts (family members, neighbors, etc.) of patients with confirmed Ebola disease in future epidemics, thereby helping to interrupt transmission. Larger trials of the vaccine, sponsored by GSK Biologicals, have already begun.
The study, carried out in Mali, West Africa and Baltimore, included the first testing of this vaccine in adult health care workers and other at-risk persons in Africa. It identified the dose to be used in subsequent clinical trials and for large-scale manufacture of the vaccine. The researchers say that if larger trials (some already ongoing at CVD-Mali) corroborate the vaccine’s clinical acceptability and immunogenicity, and evidence of protection from future field trials or from non-human primate challenge models is provided, the vaccine could obtain regulatory approvals to become a tool to interrupt transmission in future outbreaks.
This would be achieved by vaccinating all people who have come into contact with confirmed Ebola cases. The investigators also found that the administration of a booster vaccination with another vector vaccine producing Ebola virus antigens led to further enhanced immune responses likely to be associated with long-lived protection. This “prime-boost” approach provides a way to vaccinate health care workers and other front-line workers who live in areas where Ebola poses a threat to re-emerge and who need prior enduring protection.
The trial was carried out by a group of faculty researchers within the Center for Vaccine Development (CVD) of the University of Maryland School of Medicine (UMSOM), led by Milagritos D. Tapia, MD, and Kirsten Lyke, MD, collaborating closely with professor Samba O. Sow, MD, MSc, director general of the Center for Vaccine Development of Mali (CVD-Mali, an institution jointly maintained by the Ministry of Health of Mali and CVD-UM SOM).
Tapia and Lyke provided overall coordination of this study that evaluated the experimental Ebola vaccine (ChAd3-EBO-Z) developed by the Vaccine Research Center (VRC) of the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health, and GlaxoSmithKline (GSK). Other key partners in the study included the University of Oxford’s Jenner Institute and the World Health Organization.
The study was the result of a consortium of the World Health Organization, the VRC, the Jenner Institute, CVD-Mali, CVD-UMSOM, and GSK Biologicals (manufacturer of the vaccine).
“This is a crucial step on the road to using this vaccine in humans,” said CVD Director Myron Levine, MD, DTPH. “This gives us essential information that the vaccine is not only well-tolerated but the high dose stimulates strong immune responses in adults in West Africa, the global region where the Ebola outbreak was rampant last year.”
The vaccine consists of an adenovirus (cold virus) that has been modified so that, in humans, it does not cause illness and cannot multiply. It does not contain the entire virus, but a single Ebola protein. Immune responses directed against this attachment protein have been shown to be highly protective in animal studies (which are carried out under the highest level of physical containment).
“Ebola remains an urgent international public health problem. Dr. Levine and the CVD team have done excellent work with this study. It will give us crucial data that will eventually help those who are on the front lines of the fight against Ebola,” said School of Medicine Dean E. Albert Reece, MD, PhD, MBA, who is also vice president of medical affairs at the University of Maryland, Baltimore and the John Z. and Akiko K. Bowers Distinguished Professor at the University of Maryland School of Medicine. “This is just one example of how our faculty are deeply involved in global health.”
The study compared the clinical acceptability and immune responses of 20 adult participants in Baltimore and 91 in Mali; each group was given different dosage levels of vaccine. The study found that there were no safety concerns, and recommended that further studies be carried out.
More than four decades of work have earned the University of Maryland School of Medicine CVD an international reputation for creating and testing vaccines against cholera, typhoid, non-typhoidal Salmonella, dysentery, malaria, and multiple other infectious diseases, including influenza. In addition to its research and outpatient facilities in Baltimore, the center conducts extensive research in Africa, Asia, and Latin America.