New research suggests that young children given a single dose of Vitamin A are less likely to develop malaria.

Researchers at Johns Hopkins University Bloomberg School of Public Health found that children under age 5 living in sub-Saharan Africa were 54 percent less likely to develop malaria if they had been given a single large dose of vitamin A. The findings could indicate that vitamin A may protect children against the mosquito-borne malaria parasite, especially if administered under certain conditions, such as during the wet season, when malaria-infected mosquitos are most prevalent.

Malaria is a major public health challenge with more than 7 percent of deaths among children under 5 worldwide attributable to the disease. More than 80 percent of malaria cases occur in sub-Saharan Africa.

"More than half of the world's population is at risk of contracting malaria, and the disease is a leading killer of children in some parts of the world, so we urgently need to find better ways to combat it," Maria-Graciela Hollm-Delgado, who led the study, said in a statement. "Our research found that children who received vitamin A supplementation were less likely to become infected with malaria. Now we need to test vitamin A in a randomized controlled clinical trial to better understand whether this could really be an effective way to prevent this disease."

For the study, researchers analyzed national survey data from four sub-Saharan countries (Burkina Faso, Mozambique, Rwanda and Senegal) on more than 6,100 children between the ages of 6 and 59 months. The researchers were looking for possible links between malaria rates and several types of childhood vaccines as well as vitamin A supplementation. Only vitamin A was found to be protective against the disease.

Vitamin A appeared to be more protective under certain circumstances, including when administered during the rainy season, as well as when given to older children and when more time had passed since supplementation.

The researchers aren't certain why vitamin A would reduce the rate of malaria infection, but they suspect it is because vitamin A, which is known to boost immunity, and improve the ability to fight off infection, may help the body clear out the malaria parasite more quickly.

Only 62 percent of the children in the study had received vitamin A supplementation, despite the known link between vitamin A deficiency and blindness and even death. Rates were higher for many vaccinations, Hollm-Delgado says. Even though World Health Organization guidelines recommend that all children in sub-Saharan Africa receive a single large dose of vitamin A.

So far, vaccines against the disease have not been very successful. A promising vaccine candidate still under development is only 50 percent effective, Hollm-Delgado said.

The findings are detailed in the online journal eLife.