Currently, there is no licensed vaccine for malaria available anywhere in the world.
The vaccine candidate - RTS,S/AS01 - was found to be most effective against clinical and severe malaria among children compared with young infants.
The level of protection provided by the vaccination decreased over time, but a booster dose was able to prolong its effectiveness, increasing the average number of cases prevented.
"Despite the falling efficacy over time, there is still a clear benefit from RTS,S/AS01."
"An average 1,363 cases of clinical malaria were prevented over 4 years of follow-up for every 1000 children vaccinated, and 1,774 cases in those who also received a booster shot."
Researchers from the London School of Hygiene & Tropical Medicine in the UK, report that an average 558 cases were averted for every 1,000 infants vaccinated over 3 years of follow-up. Among participants also given a booster dose, an average 983 additional cases were prevented.
Given that there were an estimated 198 million malaria cases in 2013, this level of efficacy potentially translates into millions of cases of malaria in children being prevented.
Malaria is caused by a parasite and is transmitted through the bite of infected mosquitoes. The disease causes recurrent bouts of chills and fever and is estimated to kill around 1 million people worldwide each year.
At present, efforts to treat and control malaria are being severely compromised in West Africa due to the Ebola outbreak.
According to a new study published in The Lancet Infectious Diseases, up to 10,900 extra malaria deaths may have occurred last year in Guinea, Sierra Leone and Liberia on account of the disruption to health care services caused by the virus. An additional 3,900 deaths were also attributable to the interruption of deliveries of insecticide-treated nets.
The ongoing Ebola epidemic in parts of West Africa largely overwhelmed already fragile health care systems in 2014 making adequate care for malaria impossible and threatening to jeopardize progress made in malaria control and elimination over the past decade.
RTS,S/AS01 was developed to be used in sub-Saharan countries such as Guinea, Sierra Leone and Liberia, where malaria is estimated to kill around 1,300 children every day.
For the phase 3 randomized trial, a total of 15,459 participants were recruited, comprised of infants aged 6-12 weeks and children aged 5-17 months at the date of first vaccination.
The participants were enrolled from 11 different sites located across seven different sub-Saharan countries: Burkina Faso, Gabon, Ghana, Kenya, Malawi, Mozambique and the United Republic of Tanzania.
Booster doses prolonged the efficacy of the vaccine against severe malaria
Initial phase 3 results after 18 months showed that the vaccine's efficacy against clinical malaria was around 46% among children and 27% among young infants. For the new study, the researchers followed up the participants for an additional 20-30 months, assessing the impact of further booster doses.
Participants either received three vaccinations with RTS,S/AS01 - with or without an additional booster dose 18 months later - or received four vaccinations with a comparator vaccine as a form of control treatment.
The researchers observed a drop in efficacy for the vaccine among the children who were given the RTS,S/AS01 vaccine with a booster dose, with the number of episodes of clinical malaria 4 years after treatment reduced by 36%. In the first year of vaccination, vaccine efficacy was 50%.
Receiving a booster dose led to markedly better efficacy, however. Significant efficacy against severe malaria was not observed among children that did not receive a booster dose while those that did received 32% protective efficacy against severe malaria and 35% efficacy against malaria-associated hospitalizations.
The RTS,S/AS01 vaccine and booster were slightly less effective in young infants, reducing the risk of clinical episodes of malaria by 26%, and not providing significant protection against severe malaria.
However, the researchers also found that meningitis was more common among the children that received the RTS,S/AS01 vaccine (21 children) than among those receiving the control vaccine (just one child), as were convulsions.
It is now up for the European Medicines Agency (EMA) to analyze the data from the trial.
If the EMA gives a favorable opinion, WHO [World Health Organization] could recommend the use of RTS,S/AS01 as early as October this year. If licensed, RTS,S/AS01 would be the first licensed human vaccine against a parasitic disease.
Gaining approval would not be the end of the story here, however; the donor community would need to coordinate financing for the vaccine carefully if it reached that stage.
In particular, funding must not be redirected away from meeting adequate access to artemisinin-combination treatments, rapid diagnostic tests, long-lasting insecticidal nets, and other malaria control measures already in place in certain settings.
The study, published in The Lancet was funded by GlaxoSmithKline Biologicals SA and the PATH Malaria Vaccine Initiative.
References:
1. Efficacy and safety of RTS,S/AS01 malaria vaccine with or without a booster dose in infants and children in Africa: final results of a phase 3, individually randomised, controlled trial, RTS,S Clinical Trials Partnership, The Lancet, doi: http://dx.doi.org/10.1016/S0140-6736(15)60721-8, published online 23 April 2015, abstract.
2. The Lancet news release, accessed 23 April 2015 via AlphaGalileo.
3. Malaria morbidity and mortality in Ebola-affected countries caused by decreased health-care capacity, and the potential effect of mitigation strategies: a modelling analysis, Patrick G. T. Walker, et al., The Lancet Infectious Diseases, doi: http://dx.doi.org/10.1016/S1473-3099(15)70124-6, published online 23 April 2015, abstract.
4. The Lancet news release, accessed 23 April 2015 via AlphaGalileo.
5. Additional source: Mayo Clinic, Malaria: definition, accessed 23 April 2015.
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