A total of 240 healthy adult participants will take part in the research, following local trial approvals. Participants will be closely monitored, assessing the safety and ability of the vaccine candidate to elicit an immune response against Rift Valley fever. The vaccine has been developed on the University of Oxford’s ChAdOx1 vaccine platform, the same technology behind the Oxford-AstraZeneca COVID-19 vaccine which has saved millions of lives worldwide.
Rift Valley fever usually occurs in people following direct contact with infected animals, like sheep, goats and cattle, or bites from infected mosquitoes. While the majority of people infected experience mild disease, a small proportion develop the severe haemorrhagic form, which can cause blindness, convulsions, encephalitis and bleeding, and mortality rates of up to 50%.
Rift Valley fever was first identified in Kenya's Rift Valley, but in recent decades has been detected across much of Africa and also in the Middle East. As a mosquito-borne, and therefore climate-sensitive infectious disease, there is a risk of Rift Valley fever outbreaks spreading to new areas or increasing in frequency or size as a result of extreme or unusual weather events.
While Rift Valley fever vaccines have been registered for animals, no vaccines are currently available or licensed for human use. Both the World Health Organization and Africa Centres for Disease Control and Prevention have identified Rift Valley fever as a priority disease for R&D.
The promising Rift Valley fever vaccine candidate to be evaluated in people in Kenya is known as ChAdOx1 RVF. It has already shown positive results in the first stage of clinical trials conducted in the UK. The trial demonstrated that the vaccine was safe and well-tolerated in volunteers who received a single shot of the vaccine, and that it elicited high levels of neutralising antibodies which block viral infection and mediate protection against the virus. Of three dosing levels assessed, these immune responses were highest in the medium-dose and high-dose vaccines. Studies have also shown that the vaccine provides protection against Rift Valley fever in multiple livestock species, suggesting that it could potentially be used for both people and livestock.
Professor George Warimwe, Principal Investigator of the upcoming trial and Deputy Executive Director of the KEMRI-Wellcome Trust Research Programme, said: ‘Nearly 100 years after Rift Valley fever was discovered, there are still no approved vaccines or treatments against the disease. This vaccine trial brings us closer to addressing the rising frequency of outbreaks.’
Dr Richard Hatchett, CEO of CEPI, said: ‘Rift Valley fever disproportionately affects the lives and livelihoods of vulnerable pastoral communities, potentially causing both human fatalities and large-scale livestock losses. Investing in the promising human ChAdOx1 RVF vaccine diversifies CEPI’s portfolio and gives us a greater chance at protecting vulnerable populations against this worrisome threat that may become more prevalent with climate change.’
H.E. Dr. Jean Kaseya, Director General of Africa CDC, said: ‘The launch of a Phase II clinical trial of a Rift Valley fever vaccine candidate in an endemic country is a crucial milestone in our efforts to control this disease. Africa CDC is proud to support this initiative that not only prioritize the health of our people but also demonstrate the continent’s growing leadership in advancing clinical research. The ChAdOx1 RVF vaccine offers hope to vulnerable populations who are disproportionately affected by the growing impact of climate change.’
Funding for the new trial is awarded under CEPI’s strategic partnership with the University of Oxford, a broad collaboration which seeks to accelerate the development of globally accessible vaccines against outbreak pathogens.