Skip to content

When you choose to publish with PLOS, your research makes an impact. Make your work accessible to all, without restrictions, and accelerate scientific discovery with options like preprints and published peer review that make your work more Open.

PLOS BLOGS Speaking of Medicine and Health

Media Release: New model for possible malaria vaccination suggests mass vaccination should be considered for very low transmission areas

Image Credit: Daniel Paquet

In the event that a vaccine for the prevention of malaria is licensed and ready for use (such as the research malaria vaccine RTS,S, which currently looks promising), distributing and giving the vaccine to three-month old infants via the World Health Organization’s Expanded Programme on Immunization (EPI) will be the most efficient mechanism in high transmission areas but for lower transmission areas, mass vaccination every 5 years might be a more efficient vaccination strategy, a new study has found.

In a modelling study led by Thomas Smith from the Public Health Institute in Basel, Switzerland, and published in this week’s PLoS Medicine, the authors used 14 different models that simulated the transmission of the parasite that causes malaria (P. falciparum) in thousands of hypothetical individuals through different stages of malaria infection. The authors used each model to predict the health benefits over 14 years of the potential malaria vaccine RTS,S given by different vaccination strategies and found that the predicted benefits of  giving the malaria vaccine using the EPI strategy were modest and similar over a wide-range of settings. However, EPI with an initial catch-up phase averted the most deaths per vaccine dose in individuals who had over 10 infectious malaria bites a year but in areas where people typically have two or less infectious mosquito bites a year, the authors’ model found that mass vaccination strategies substantially reduced transmission leading to much greater health effects per dose than other strategies, even at modest coverage.

This study only reports the first stages of using ensemble modelling to predict the health effects of RTS,S vaccination, so future studies will need to combine the outputs of multiple models with economic analyses to provide a rational basis for the design of vaccine-containing malaria control and elimination programs.

The authors say: “The ensemble modeling approach provides more robust outcomes than single models, and our analyses suggest that such an approach produces greater confidence in predictions of health effects for lower malaria transmission settings than for higher ones.”

The authors continue: “This study suggests that targeted mass vaccination with RTS,S in low transmission settings may be more efficient than national-level introduction via EPI programs, but there remains a need to analyze the feasibility and economics of such strategies and the circumstances in which vaccination will avert epidemics.”

CONTACT:

Thomas Smith
Swiss Tropical & Public Health Institute
Basel, Switzerland
thomas-a.smith@unibas.ch

Leave a Reply

Your email address will not be published. Required fields are marked *


Add your ORCID here. (e.g. 0000-0002-7299-680X)

Back to top