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MALARIA . By TARIK ZAHER Assistant Professor of Tropical Medicine Zagazig Universty , Egypt . What is Malaria?. Malaria, the 'King of Diseases‘
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MALARIA By TARIK ZAHER Assistant Professor of Tropical Medicine ZagazigUniversty, Egypt
What is Malaria? • Malaria, the 'King of Diseases‘ • Affects more than 500 million and kills more than 3 million people every year.
Geographical distribution Malarial belt. A, B and C.
Aetiology Plasmodia=malaria parasites
The Malaria Parasites • Malaria is caused by protozoan parasites called Plasmodia, belonging to the parasitic phylum Apicomplexa. More than 200 species of the genus Plasmodium (=plasma + eidos, form) have been identified that are parasitic to reptiles, birds, and mammals. Four Plasmodium species have been well known to cause human malaria, namely, P. falciparum, P. vivax, P. ovale, and P. malariae. A fifth one, P. knowlesi, has been recently documented to cause human infections in many countries of Southeast Asia.
Life cycle Vector: pregnant female Anopheles mosquito
Pathogenesis Cytokines, cytoadherence and rosetting
Clinical Features of Malaria Atypical features is more than typical. Malaria can mimic any thing and every thing.
Typical features • Cold stage, Hot stage and Sweating stage. The febrile episode starts with shaking chills, usually at mid-day between 11 a.m. to 12 noon, and this lasts from 15 minutes to 1 hour (the cold stage), followed by high grade fever, even reaching above 1060 F, which lasts 2 to 6 hours (the hot stage). This is followed by profuse sweating and the fever gradually subsides over 2-4 hours. These typical features are seen after the infection gets established for about a week. The febrile paroxysms are usually accompanied by head aches, vomiting, delirium, anxiety and restlessness.
Atypical features • In an endemic area, it is rather unusual to find cases with typical fever pattern. Some patients may not have fever at all and may present with other symptoms listed below. Many present with fever of various patterns - low grade to high grade, with or without chills, intermittent to continuous, or even as cases of prolonged fever. In the initial stages of the illness, fever may be quotidian, with more than one spike per day and this is due to the development of multiple broods of the parasite. As the disease progresses, these broods get synchronised and the fever tends to be more uniform. However in cases of P. falciparum malaria and mixed infections, this pattern of multiple spikes may continue.
Atypical features • Headache. • Body ache, back ache and joint pains. • Dizziness, vertigo. • Altered behaviour, acute psychosis. • Altered sensorium. • Convulsions, coma. • Cough. • Breathlessness. • Chest pain. • Acute abdomen. • Weakness. • Vomiting and diarrhoea. • Jaundice. • Pallor. • Puffiness of lids. • Secondary infections. • Hepatosplenomegaly.
Severe Malaria Due to P.falciparum. Death from acute P. vivax, P. ovale or P. malariae infections is rare.
1990 WHO Definition of severe malaria • 1. Cerebral malaria – unrousable coma not attributable to any other cause in a patient with falciparum malaria. The coma should persist for at least 30 min (1 h in the 2000 definition) after a generalized convulsion to make the distinction from transient postictal coma. Coma should be assessed using the Blantyre coma scale in children or the Glasgow coma scale in adults .2.Severe anaemia– normocyticanaemia with haematocrit <15% or haemoglobin <5 g/dL in the presence of parasitaemia more than 10 000/μL. Note that finger prick samples may underestimate the haemoglobin concentration by up to 1 g if the finger is squeezed. If anaemia is hypochromic and/or microcytic, iron deficiency and thalassaemia/haemoglobinopathy must be excluded. (These criteria are rather generous; and would include many children in high transmission areas. A parasitaemia of >100 000/μL might be a more appropriate threshold.)3.Renal failure – defined as a urine output of <400 mL in 24 h in adults, or 12 mL/kg in 24 h in children, failing to improve after rehydration, and a serum creatinine of more than 265 μmol/L (>3.0 mg/dL). (In practice for initial assessment, the serum creatinine alone is used.)
4.Pulmonary oedemaor adult respiratory distress syndrome.5.Hypoglycaemia – defined as a whole blood glucose concentration of less than 2.2 mmol/L (40 mg/dL).6.Circulatory collapse(Algid malaria) or shock – hypotension (systolic blood pressure <50 mmHg in children aged 1–5 years or <70 mmHg in adults), with cold clammy skin or core-skin temperature difference >10°C. (The more recent review declined to give precise definitions, but noted the lack of sensitivity or specificity of core-peripheral measurements.) Capillary refill time is not mentioned but recent studies indicate this simple test provides a good assessment of severity 7.Spontaneous bleeding from gums, nose, gastrointestinal tract, etc. and/or substantial laboratory evidence of DIC. (This is relatively unusual.)8.Repeated generalized convulsions – more than two observed within 24 h despite cooling. (In young children, these may be febrile convulsions, and the other clinical and parasitological features need to be taken into account.) Clinical evidence of seizure activity may be subtle (e.g. tonic clonic eye movements, profuse salivation, delayed coma recovery).
9.Acidaemia – defined as an arterial or capillary pH <7.35 (note temperature corrections are needed as most patients are hotter than 37°C; add 0.0147 pH unit per degree Celsius (°C) over 37°C), or acidosis defined as a plasma bicarbonate concentration <15 mmol/L or a base excess >10. (Operationally, the clinical presentation of ‘respiratory distress' or ‘acidotic breathing’ is focused upon in the 2000 recommendations. Abnormal breathing patterns are a sign of severity indicating severe acidosis, pulmonary oedema or pneumonia.)10.Macroscopic haemoglobinuria (Black water fever)– if definitely associated with acute malaria infection and not merely the result of oxidant antimalarial drugs in patients with erythrocyte enzyme defects such as G6PD deficiency. (This is difficult to ascertain in practice: if the G6PD status is checked following massive haemolysis, the value in the remaining red cells may be normal even in mild G6PD deficiency. This part of the definition is not very useful.)
11.Postmortem confirmation of diagnosis. In fatal cases a diagnosis of severe falciparum malaria can be confirmed by histological examination of a postmortem needle necroscopy of the brain. The characteristic features, found especially in cerebral grey matter, are venules/capillaries packed with erythrocytes containing mature trophozoites and schizonts of P. falciparum. (These features may not be present in patients who die several days after the start of treatment, although there is usually some residual pigment in the cerebral vessels.)The 2000 recommendations also include the following: 12. Impairment of consciousness less marked than unrousable coma. (Any impairment of consciousness must be treated seriously.Assessment using the Glasgow Coma Scale is straightforward, but the Blantyre Scale needs careful local standardization particularly in younger children.)13.Prostration: Inability to sit unassisted in a child who is normally able to do so. In a child not old enough to sit, this is defined as an inability to feed. This definition is based on examination not history.
14.Hyperparasitaemia– the relation of parasitaemia to severity of illness is different in different populations and age groups, but in general very high parasite densities are associated with increased risk of severe disease, e.g. >4% parasitaemia is dangerous in non-immunes, but may be well tolerated in semi-immune children. In non-immune children studied in Thailand a parasitaemia ≥4% carried a 3% mortality (30 times higher than in all uncomplicated malaria) but in areas of high transmission values much higher may be tolerated well. Many use a threshold definition of 10% parasitaemia in higher transmission settings.The followings were not considered criteria of severe malaria:Jaundice – detected clinically or defined by a serum bilirubin concentration >50 μmol/L (3.0 mg/dL). This is only a marker of severe malaria when combined with evidence of other vital organ dysfunction such as coma or renal failure.Hyperpyrexia – a rectal temperature above 40°C in adults and children is no longer considered a sign of severity.
Diagnosis Repeat blood film(MPS) many times to catch diagnosis
1-Blood film • Peripheral smear examination for malarial parasite is the gold-standard in confirming the diagnosis of malaria. Thick and thin smears prepared from the peripheral blood are used for the purpose.
2-Rapid Diagnosis of Malaria • The immunochromatographic tests for the detection of malaria antigens, developed in the past decade, have opened a new and exciting avenue in malaria diagnosis. However, their role in the management and control of malaria appears to be limited at present.
Treatment Chloroquine resistant is now worldwide.
Treatment of P. vivax, P. ovale, P. malariae and P. knowlesiInfections
Recommendations for Treatment of Uncomplicated P. falciparum Malaria in Pregnancy (WHO, 2010, NVBDCP, 2010) • First trimester :Quinine + Clindamycin for 7 days. ACT should be used if it is the only effective treatment available. • Second and third trimesters :ACT known to be effective in the country/region or artesunate + clindamycin to be given for 7 days or quinine + clindamycin to be given for 7 days.
a.Recommended by WHO in low transmission areas or outside malaria endemic areas. b.Recommended by WHO for children in high transmission areas; regimen 1 can also be used. c.For areas where artesunate or artemether are not available, mainly the US. National Vector Borne Disease Control Programe in India recommends quinine as the treatment for severe malaria in pregnancy. Loading dose should not be administered to patients who received quinine, quinidine, halofantrine, or mefloquine within the preceding 12 hours. d.Not for children below 8 years of age and pregnant women e.Mefloquine has important neuropsychiatric and cardiac adverse effects; not an ideal drug for pregnancy; cannot be used concomitantly with quinine or quinidine. f.For pregnant women. Clindamycin 5 mg/kg (usually 300 mg) po or iv every 8 hours can be administered if the patient is unable to take doxycycline.
Prevention Insecticide treated bed nets. Repellents. Chemoprophylaxis. No 100% protection.
aChloroquine should not be taken by people with a history of seizures, generalized psoriasis or pruritus previously on chloroquine. • bMefloquine is not recommended for babies <3 months of age. Mefloquine should not be taken by people with psychiatric disorders, epilepsy, or those driving heavy vehicles, trains, aeroplanes etc. or deep sea diving. • cDoxycycline may cause photosensitivity. Use of sunscreens is recommended.Not for childern under 8 years. • d Chloroquine, pyrimethamine and proguanil are all considered safe in pregnancy, but are now largely ineffective against P. falciparum. Mefloquine is considered safe, although there are uncertainties as treatment use has been associated with stillbirth in one large series. Tetracyclines and primaquine are contraindicated in pregnancy (although some argue that they are safe in first trimester before the formation of fetal bones and dentition, and before the risk of acute fatty liver), and atovaquone-proguanil has not been evaluated. • e The use of antimalarial prophylaxis by children living in an endemic area has been shown to reduce mortality; in The Gambia administration of pyrimethamine and dapsone (Maloprim) in the 1–4 year age group reduced mortality by 25%.
Chronic complications of malaria Malarial nephropathy(Quartan nephropathy). Tropical splenomegaly(hyper reactive malarial splenomegaly) syndrome. Chronic anemia . Failure to thrive.
Quartan nephropathy • The nephrotic syndrome, with albuminuria, hypoalbuminaemia, oedema and variable renal impairment, is common in the tropics.Repeated or continuous P. malariae infection is associated with childhood nephrotic syndrome in West Africa and Papua New Guinea. In the past, quartan nephropathy was also described in eastern Asia. It has disappeared from countries where P. malariae has been eradicated, such as Guyana, where Giglioli first described the relationship between malaria and nephrosis.
Hyper-reactive malarial splenomegaly • This is also known as the tropical splenomegaly syndrome. It occurs where transmission of malaria is intense and has been reported throughout the tropics. The highest incidence of hyper-reactive malarial splenomegaly (HMS) yet reported was in the Upper Watut Valley of Papua New Guinea, where 80% of adults and older children had large spleens. Genetic factors undoubtedly also play a role because within a malarious area the geographical distribution of HMS does not follow closely that of malaria transmission. In Ghana first degree relatives have a four times higher incidence of HMS than age and location matched controls.
Hyper-reactive malarial splenomegaly • There is gross splenomegaly with normal architecture, and lymphocytic infiltration of the hepatic sinusoids with Kupffer cell hyperplasia. The massively enlarged spleen leads to hypersplenism with anaemia, leucopenia and thrombocytopenia. There is a polyclonal hypergammaglobulinaemia with high with high serum concentrations of IgM. High titres of malaria antibodies and a variety of autoantibodies (antinuclear factor, rheumatoid factor) are usually present. The hypergammaglobulinaemia is believed to result from polyclonal B-cell activation in the absence of adequate numbers of CD8+ suppressor T-cells, which have been removed by an antibody-dependent cytotoxic mechanism. Cell-mediated immune responses are otherwise normal. Immunoglobulin gene rearrangements have been demonstrated in a sub-group of patients with HMS. This indicates clonallymphoproliferation and the potential for progression to malignant lymphoma or leukaemia.