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Biology
Geographic Distribution
Clinical Features
Laboratory Diagnosis
Treatment

Plasmodium falciparum is a protozoan parasite, one of the species of Plasmodium that cause malaria in humans. It is transmitted by the female Anopheles mosquito. Malaria caused by this species (also called malignant or falciparum malaria) is the most dangerous form of malaria, with the highest rates of complications and mortality. As of 2006, there were an estimated 247 million human malarial infections (98% in Africa, 70% being 5 years or younger). It is much more prevalent in sub-Saharan Africa than in many other regions of the world; in most African countries, over 75% of cases were due to P. falciparum, whereas in most other countries with malaria transmission, other, less virulent plasmodial species predominate. Almost every malarial death is caused by P. falciparum.

BIOLOGY

CAUSAL AGENTS

Blood parasites of the genus Plasmodium. There are approximately 156 named species of Plasmodium which infect various species of vertebrates. Four species are considered true parasites of humans, as they utilize humans almost exclusively as a natural intermediate host: P. falciparum, P. vivax, P. ovale and P. malariae. However, there are periodic reports of simian malaria parasites being found in humans, most reports implicating P. knowlesi. At the time of this writing, it has not been determined if P. knowlesi is being naturally transmitted from human to human via the mosquito, without the natural intermediate host (macaque monkeys, genus Macaca). Therefore, P. knowlesi is still considered a zoonotic malaria.

LIFE CYCLE

Malaria LifeCycle

The malaria parasite life cycle involves two hosts. During a blood meal, a malaria-infected female Anopheles mosquito inoculates sporozoites into the human host . Sporozoites infect liver cells and mature into schizonts , which rupture and release merozoites . (Of note, in P. vivax and P. ovale a dormant stage [hypnozoites] can persist in the liver and cause relapses by invading the bloodstream weeks, or even years later.) After this initial replication in the liver (exo-erythrocytic schizogony ), the parasites undergo asexual multiplication in the erythrocytes (erythrocytic schizogony ). Merozoites infect red blood cells . The ring stage trophozoites mature into schizonts, which rupture releasing merozoites . Some parasites differentiate into sexual erythrocytic stages (gametocytes) . Blood stage parasites are responsible for the clinical manifestations of the disease. The gametocytes, male (microgametocytes) and female (macrogametocytes), are ingested by an Anopheles mosquito during a blood meal . The parasites` multiplication in the mosquito is known as the sporogonic cycle . While in the mosquito’s stomach, the microgametes penetrate the macrogametes generating zygotes . The zygotes in turn become motile and elongated (ookinetes) which invade the midgut wall of the mosquito where they develop into oocysts . The oocysts grow, rupture, and release sporozoites , which make their way to the mosquito’s salivary glands. Inoculation of the sporozoites into a new human host perpetuates the malaria life cycle.

GEOGRAPHIC DISTRIBUTION

Malaria generally occurs in areas where environmental conditions allow parasite multiplication in the vector. Malaria today is usually restricted to tropical and subtropical areas and altitudes below 1,500 m., although in the past malaria was endemic in much of North America, Europe and even parts of northern Asia, and today is still present on the Korean peninsula. However, this present distribution could be affected by climatic changes and population movements. Plasmodium falciparum is the predominant species in the world. P. vivax and P. ovale are traditionally thought to occupy complementary niches, with P. ovale predominating in Sub-Saharan Africa and P. vivax in the other areas; but their geographical ranges do overlap. These two species are not always distinguishable on the basis of morphologic characteristics alone, and the use of molecular tools will help clarify their diagnosis and exact distribution. P. malariae has wide global distribution, being found in South America, Asia, and Africa, but it is less frequent than P. falciparum in terms of association with cases of infection. P. knowlesi is found in southeast Asia.

CLINICAL FEATURES

The symptoms of uncomplicated malaria can be rather non-specific and the diagnosis can be missed if health providers are not alert to the possibility of this disease. Since untreated malaria can progress to severe forms that may be rapidly (<24 hours) fatal, malaria should always be considered in patients who have a history of exposure (mostly: past travel or residence in disease-endemic areas). The most frequent symptoms include fever and chills, which can be accompanied by headache, myalgias, arthralgias, weakness, vomiting, and diarrhea. Other clinical features include splenomegaly, anemia, thrombocytopenia, hypoglycemia, pulmonary or renal dysfunction, and neurologic changes. The clinical presentation can vary substantially depending on the infecting species, the level of parasitemia, and the immune status of the patient. Infections caused by P. falciparum can progress to severe, potentially fatal forms with central nervous system involvement (cerebral malaria), acute renal failure, severe anemia, or adult respiratory distress syndrome. Complications of P. vivax malaria include splenomegaly (with, rarely, splenic rupture), and those of P. malariae include nephrotic syndrome.

LABORATORY DIAGNOSIS

The first step toward diagnosis (and treatment) of malaria is to consider malaria in the differential diagnosis!

Diagnostic findings
Microscopic identification is the method most frequently used to demonstrate an active infection.
Morphological comparison and images of Plasmodium species.
Molecular diagnosis techniques can complement microscopy, especially in species identification.
Antibody Detection can detect past (not necessarily active) infections.
Immunologic/Biochemical detection of malaria parasite products are available and under evaluation.
Bench aids for Malaria

For more information view the source: Center for Disease Control

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