Malaria is an important cause of death and illness in children and adults, especially in tropical countries. Malaria control requires an integrate approach, including prevention (primarily vector control) and prompt treatment with effective antimalarials. Since the publication of the first edition of the guidelines in 2006, most of the countries where P. falciparum is endemic have progressively updated treatment policies from the failing chloroquine (CQ) and sulfadoxine-pyrimethamine (SP) to the recommended artemisininbased combination therapies (ACTs); this is the best current treatment for uncomplicated falciparum malaria. Unfortunately, the implementation of these policies has lagged behind due to various factors such as high costs.

The treatment recommendations given aim to provide simple and straightforward treatment recommendations based on sound evidence that can be applied even in severely resource-constrained settings. Cost is a factor that should be taken into consideration in antimalarial treatment policy and practices. However, as there are increasing international subsidies for antimalarials, efficacy and safety have taken precedence over costs when making the recommendations. The number of antimalarial drug trials published has continued to increase over the years, with the result that these guidelines have a firmer evidence base than previous treatment recommendations. Inevitably, there are still information gaps, so they will remain under regular review with updates every two years and/or on an ad hoc basis as new evidence becomes available.

Malaria is caused by infection of red blood cells with protozoan parasites of the genus Plasmodium. The parasites are inoculated into the human host by a feeding female anopheline mosquito. The four Plasmodium species that infect humans are P. falciparum, P. vivax, P. ovale and P. malariae. Increasingly, human infections with the monkey malaria parasite, P. knowlesi, have also been reported from the forested regions of South-East Asia.

The first symptoms of malaria are nonspecific and similar to the symptoms of a minor systemic viral illness. They comprise: headache, lassitude, fatigue, abdominal discomfort, and muscle and joint aches, usually followed by fever, chills, perspiration, anorexia, vomiting and worsening malaise. Malaria is, therefore, frequently over-diagnosed on the basis of symptoms alone, especially in endemic areas, because of this non-specificity of symptomatology. At this early stage, with no evidence of vital organ dysfunction, the patients can readily be treated with full rapid recovery provided prompt and effective treatment is given. If, however, ineffective medicines are given or if treatment is delayed, particularly in P. falciparum malaria, the parasite burden continues to increase and severe

Severe malaria usually manifests with one or more of the following: coma (cerebral malaria), metabolic acidosis, severe anaemia, hypoglycaemia, acute renal failure or acute pulmonary oedema. By this stage of the disease, the case fatality in people receiving treatment is typically 10–20%. However, if left untreated, severe malaria is fatal in the majority of cases.

The nature of malaria clinical disease depends greatly on the background level of the acquired protective immunity, a factor which is the outcome of the pattern and intensity of malaria transmission in the area of residence.

Where the transmission of malaria is “stable”, meaning where populations are continuously exposed to a fairly constant, high rate of malarial inoculations (entomological inoculation rate [EIR] >10 per year), partial immunity to the clinical disease and to its severe manifestation is acquired early in childhood. In such situations, which prevail in much of sub-Saharan Africa and parts of Oceania, the acute clinical disease described above is mostly confined to young children, who suffer high parasite densities and acute clinical disease. If untreated, this can progress very rapidly to severe malaria; adolescents and adults are partially immune and seldom suffer clinical disease, although they may continue to harbour low blood-parasite densities. Immunity is, however, modified in pregnancy, and it is often gradually lost, at least partially, when individuals move out of the endemic areas for long durations (usually many years).

In areas of unstable malaria, which prevails in much of Asia and Latin America, and the remaining parts of the world where malaria is endemic, the rates of inoculation fluctuate greatly over seasons and years. Entomological inoculation rates are usually < 5 per year and often < 1 per year. This retards the acquisition of immunity and results in people of all ages, adults and children alike, suffering acute clinical malaria, with a high risk of progression to severe malaria if untreated. Epidemics may occur in areas of unstable malaria when inoculation rates increase rapidly due to a sudden increase in mosquito vector densities. Epidemics manifest as a very high incidence of malaria in all age groups and can overwhelm health services. Severe malaria is common if prompt effective treatment is not made widely available. Non-immune travellers to a malaria endemic area are at a high risk of acquiring malaria, unless protective measures are taken, and of the disease progressing to fatal severe malaria if infections are not treated promptly and effectively.

With effective malaria control (as with a population-wide coverage with effective vector control and large-scale deployment of ACTs), the number of malaria inoculations can be greatly reduced; this will be followed in time by a corresponding change in the clinical epidemiological profile in the area and a risk of epidemics, if control measures are not sustained.

Early diagnosis of malaria and its effective and timely treatment reduces morbidity and prevents death from malaria. Diagnostic tools – microscopy and rapid diagnostic tests – and medicines – artemisinin-based combination treatments – allow effective case management. Diagnostic tests and combination medicines of good quality need to be used correctly and strategically to reduce malaria morbidity and mortality and to reduce the risk of parasite resistance to medicines.

Source: World Health Organisation Report

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