April 25, 2012
B. F. (Lee) Hall, M.D., Ph.D., and Anthony S. Fauci, M.D.
National Institute of Allergy and Infectious Diseases
On World Malaria Day, we stand at a critical juncture in our efforts to control a global scourge. This year’s theme—Sustain Gains, Save Lives: Invest in Malaria—stresses the crucial role of continued investment of resources to maintain hard-won gains. Lives have indeed been saved. According to World Health Organization (WHO) estimates, annual deaths from malaria decreased from roughly 985,000 in 2000 to approximately 655,000 in 2010. Improvements were noted in all regions that WHO monitors, and, since 2007, four formerly malaria-endemic countries—the United Arab Emirates, Morocco, Turkmenistan and Armenia—have been declared malaria-free. However, about half of the world’s population is at risk of contracting malaria, and the disease continues to exact an unacceptably high toll, especially among very young children and pregnant women.
The National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health, is committed to maintaining the research momentum needed to eradicate this mosquito-borne parasitic disease. Our investments include programs designed to strengthen research capacity in those countries most affected by malaria. For example, through the 2010 International Centers of Excellence for Malaria Research initiative, NIAID has established 10 research centers in malaria-endemic regions around the world. NIAID also provides access for U.S. and international scientists to multiple research resources as well as training for new investigators. Additionally, NIAID supports the Global Malaria Action Plan (GMAP), an international framework for coordinated action designed to control, eliminate and eradicate malaria.
NIAID’s research portfolio includes an array of projects aimed at better understanding the disease process and finding new and improved ways to diagnose and treat people with malaria, control the mosquitoes that spread it, and prevent malaria altogether through vaccination.
Earlier this month, an international team including NIAID-funded investigators reported that resistance to artemisinin—a frontline malaria drug—has spread from Cambodia to the border of Thailand and Burma, underscoring the importance of continued efforts to detect artemisinin resistance and slow its spread. Other grantees have identified a major region of the malaria parasite genome associated with artemisinin resistance, raising the possibility that scientists will have a new way to monitor the spread of drug resistance in the field.
The spread of artemisinin-resistant malaria highlights the need for new and improved malaria drugs. Two recently completed drug screening projects offer some hope. In one project, NIH scientists screened nearly 3,000 chemicals, and found 32 that were highly effective at killing numerous genetically diverse malaria parasite strains. Another screening project identified a new class of compounds that inhibits parasites in both the blood stage and in the liver. The research could lead to the development of malaria drugs that attack the parasite at multiple stages in its lifecycle, which would hamper the parasite’s ability to develop drug resistance.
Work continues on a novel anti-malaria compound, NITD609, first described by NIAID-supported researchers in 2010. A mid-stage clinical trial to assess NITD609’s activity in people began in Thailand this year. Research on NITD609 is a continuing collaboration among NIH-funded scientists, the pharmaceutical company Novartis, and the nonprofit Medicines for Malaria Venture.
Because the risk of childhood malaria is related to exposure before birth to the malaria parasite through infected mothers, NIAID scientists recently initiated a program on malaria disease development in pregnant women and young children that could yield new preventive measures and treatments for these most vulnerable groups.
The mosquitoes that spread malaria are also the target of NIAID-supported science. In 2011, researchers identified bacteria that render mosquitoes resistant to malaria parasites. Further study is needed, but it may one day be possible to break the cycle of infection by reducing the mosquito’s ability to transmit malaria parasites to people.
A vaccine to prevent malaria has been frustratingly elusive, and so initial positive results reported last year by the PATH Malaria Vaccine Initiative, GlaxoSmithKline Biologicals and their collaborators came as welcome news. In a late-stage clinical trial in approximately 6,000 African children, the candidate vaccine, known as RTS,S, reduced malaria infections by roughly half. Currently, eight other vaccine candidates are being tested in NIAID-supported clinical trials. One of them uses live, weakened malaria parasites delivered intravenously to prompt an immune response against malaria. An early-stage clinical trial of this vaccine candidate began at NIH earlier this year.
Whether the remarkable returns on investment in malaria control will continue in years ahead depends on our willingness to commit needed financial and intellectual resources to the daunting challenges that remain. On World Malaria Day, we join with our global partners in affirming that commitment and rededicating ourselves to the efforts to defeat malaria worldwide.
For more information on malaria, visit NIAID’s malaria Web portal.
Lee Hall, M.D., Ph.D., is Chief of the Parasitology and International Programs Branch in the NIAID Division of Microbiology and Infectious Diseases. Anthony S. Fauci, M.D., is Director of the National Institute of Allergy and Infectious Diseases at the National Institutes of Health in Bethesda, Maryland.
Media inquiries can be directed to the NIAID Office of Communications at 301-402-1663, firstname.lastname@example.org.
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Last Updated April 24, 2012
Last Reviewed April 24, 2012