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Malaria in Africa, traditionally diagnosed from fever symptoms, has been massively overdiagnosed, and other causes of fever missed. This research demonstrated the magnitude of overdiagnosis, undertook trials of rapid diagnostic tests, identified alternative bacterial diagnoses, completed economic appraisals and studied prescriber behaviour. The research underpinned a major change in policy by WHO (2010), substantial investments by the Global Fund to fight HIV, TB and Malaria (GFATM), and changed clinical practice, to direct antimalarials to malaria patients only. In one country alone, 516,576 courses of inappropriate artemisinin-based combination therapy (ACT) were averted, worth in excess of $1m.
The University of Oxford's Professor Nick White and his colleagues successfully demonstrated the effectiveness of artemisinin (an ancient Chinese remedy) in the treatment of malaria. They also pioneered artemisinin-combination therapy (ACT), the most effective and fast-acting malaria treatment in the world. Responsible for saving hundreds of thousands of lives every year, ACT was recommended by the World Health Organization (WHO) in 2006 as the primary method of malarial treatment globally. Malaria kills more than half a million and affects over 225 million people every year.
Impact on health and welfare: The malaria screening assay allows early re-admittance of malaria-risk donors to blood donation programmes whilst maintaining protection against transfusion-transmitted malaria. Increasing the availability of safe blood for donation through use of the malaria assay saves lives.
Impact on commerce: The malaria EIA is the front-line assay in at least ten countries today. Almost 2.5 million tests have been sold in the REF impact census period through a number of distributors, including Bio-Rad worldwide, [text removed for publication].
Beneficiaries: Individuals requiring blood transfusions, national blood transfusion services and hospitals; commercial companies marketing the malaria EIA.
Significance and Reach: Over 700,000 assays are now performed per year in the UK, France, Belgium, Portugal, Spain, Italy, Netherlands, New Zealand and Australia. In the UK alone, more than 345,000 blood donations from malaria-risk donors have been cleared for clinical use.
Attribution: All research was led by Dr Jana McBride, Dr David Cavanagh, and Eleanor Riley, at the University of Edinburgh (UoE), except output [6] which was an international consortium to which UoE contributed recombinant malaria antigens and technical expertise.
In spite of recent reductions in transmission, malaria continues to kill over half a million people annually. To assist in fighting the global burden of malaria, Kenya-based Oxford research team, the Malaria Public Health Department (MPHD) has spent the past decade analysing malaria risk, interventions, and control methods, to better define and target malaria. This research has been used to inform local governments, the World Health Organization (WHO), and international funding organisations about malaria risk, interventions and control methods to better define and target malaria.
Innovative research into the spatial ecology of vector-borne disease at the University of Oxford led to the setting up of the Malaria Atlas Project (MAP), a programme which has provided sophisticated models of malaria distribution to inform planning and policy decisions of national governments and international agencies. MAP data underpinned the 2012 World Health Organization World Malaria Report and has influenced WHO's policy on malaria. Mapping has also been used in planning and resource allocation by other key players in the fight against malaria: the African Leaders Malaria Alliance, the Roll Back Malaria partnership, the Global Fund and the Global Health Group. More recent research to map the global distribution of dengue risk has been used in vaccine planning by the GAVI Alliance in conjunction with the Gates Foundation.
Research by the University of Oxford's Shoklo Malaria Research Unit (SMRU), Mae Sot (Thailand), has had a significant impact on the health outcomes of pregnant women and infants in malaria affected areas, with findings leading to major changes in World Health Organization recommendations for the prevention and treatment of malaria in pregnancy. Its studies have established the optimum treatment regimes (using artemisinin-based drugs) and have shown that early detection and treatment of malaria, including asymptomatic infection, during pregnancy prevents maternal mortality, morbidity, and improves the outcome of pregnancy.
Work by LSHTM researchers has led to a greater understanding of Plasmodium malaria parasite species and contributed new methodologies for diagnosis. As a result, patients with the uncommon species P. knowlesi and many hundreds with P. ovale spp. have been correctly diagnosed by polymerase chain reaction (PCR), and the rapid detection of parasite DNA is revolutionising clinical trial design. The work has led to the successful commercialisation of a low-cost, easy-to-use malaria testing kit for use in developing countries. Through media outputs and further research, the work has taken awareness of the issues surrounding malaria diagnostics to an international audience.
Researchers at the Mahidol-Oxford Research Unit (MORU) in Thailand performed the first comparative trials to unambiguously show artemisinin resistance in Plasmodium falciparum parasites in western Cambodia, as well as its emergence on the Thailand-Myanmar border. These studies emphasised the importance of urgent containment, leading to rapid responses from the World Health Organization (WHO) and international governments for the tracking and containment of drug-resistant malaria.
Research in West Africa by LSHTM and partners has shown that monthly treatment with effective antimalarial drugs during the rainy season provides children with a very high degree of personal protection against malaria, can be delivered on a large scale by community health workers at moderate cost, and with no serious side-effects. Based on this research, WHO now recommends that children living in Sahel areas where malaria is a major problem should receive such `seasonal malaria chemoprevention' (SMC) with sulfadoxine-pyrimethamine plus amodiaquine. Ten countries have incorporated SMC into their strategic plans for malaria control.
Malaria in pregnancy causes the deaths of 200,000 newborns and 10,000 mothers annually. The Liverpool School of Tropical Medicine is the coordinating centre of the global Malaria in Pregnancy Consortium. LSTM-led research from 2007 has contributed to the World Health Organisation's (WHO) estimates of the global burden of malaria in pregnancy, showing that 125M pregnancies are at risk, more than double previous estimates. The Consortium has also contributed to a better understanding of the low uptake of existing interventions by pregnant women, and identification of the best prevention strategies. Consequently, WHO updated its policy recommendations in 2007on intermittent-preventive-treatment for prevention of malaria in pregnancy, adopted in 37 sub-Saharan countries, and in 2012, already adopted in 9 countries.