Plasmodium: Difference between revisions

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*All returned travellers with fever should have thick and thin smears to rule out malaria
*All returned travellers with fever should have thick and thin smears to rule out malaria
*Management depends on susceptibilities (predicted by country of acquisition) and severity (including the level of parasitemia)
*Management depends on species and susceptibility (predicted by country of acquisition), and severity (including the level of parasitemia)
**Most of the world has chloroquine-resistant ''P. falciparum'', so when in doubt, treat all ''P. falciparum'' malaria as resistant
**Most of the world has chloroquine-resistant ''P. falciparum'', so when in doubt, treat all ''P. falciparum'' malaria as resistant
*All patients with ''P. falciparum'' malaria should be considered for hospital admission
*All patients with ''P. falciparum'' malaria should be considered for hospital admission
**If severe, advocate for ICU-level care
**If severe, advocate for ICU-level care


=== Concurrent Supportive Care ===
===Concurrent Supportive Care===


* Fluid resuscitation as needed (too much may be harmful in children)
*Fluid resuscitation as needed (too much may be harmful in children)
* Rule out [[hypoglycemia]] if sudden change in clinical status (worsened with [[quinine]])
*Rule out [[hypoglycemia]] if sudden change in clinical status (worsened with [[quinine]])
* Avoid [[steroids]], which are associated with worse outcomes in cerebral malaria
*Avoid [[steroids]], which are associated with worse outcomes in cerebral malaria
* Correct coagulopathy and bleeding with blood products and [[vitamin K]]
*Correct coagulopathy and bleeding with blood products and [[vitamin K]]
* If [[shock]] develops, treat empirically with antibiotics while getting blood cultures to rule out intercurrent [[bacteremia]]
*If [[shock]] develops, treat empirically with antibiotics while getting blood cultures to rule out intercurrent [[bacteremia]]


===Uncomplicated Malaria===
===Uncomplicated Malaria===

Revision as of 11:28, 21 August 2020

  • Mosquito-borne protozoon that causes malaria

Background

Microbiology

  • Intracellular protozoal parasite of red blood cells
  • Species that cause human disease are: P. falciparum, P. vivax, P. ovale, P. malariae, and P. knowlesi (from the macaque monkey)
    • P. knowlesi looks like P. malariae microscopically, but has a higher (>1%) parasitemia with a clinical course more like P. falciparum
  • Identified on thick-and-thin Giemsa-stained blood films

Life Cycle

  • Infected mosquito injects sporozoites into human
  • Sporozoites infect the hepatocytes, which develop intracellular schizonts
    • P. vivax and P. ovale can have prolonged (months to years) liver stages during which the patient is asymptomatic
  • The hepatocytes rupture and release trophozoites, which infect erythrocytes and mature into trophozoites
  • Trophozoites develop into schizonts, then rupture the erythrocyte to release more merozoites
    • These cycles of merozoite to trophoziote to schizont to merozoite explain the periodic fevers
  • Trophozoites can also develop into gametocytes (micro- or macro-gametocytes), which are taken up by the mosquito
  • In the mosquito, the micro- and macro-gametocytes join to form a zygote, which matures into an ookinete then oocyst, which releases infective sporozoites

Pathophysiology

  • Infected red blood cells adhere to endothelial cells, and clump, causing rosetting
  • This causes microvascular obstruction and ischemia, which causes cerebral malaria and metabolic acidosis
  • Can cause marrow suppression
  • P. falciparum manages to avoid splenic sequestration
  • Hypoglycemia
    • In children, hypermetabolic and consumes glucose
    • In adults, hyperinsulin state and quinine also contributes

Epidemiology

  • Transmitted by female Anopheles mosquitoes, but can also be transmitted through blood transfusions
  • Distribution is that of the Anopheles mosquito: tropical and subtropical regions worldwide with the exception of North America, Europe, and Australia
  • Distribution varies by species
    • P. falciparum in tropical and subtropical Americas, Africa, and Southeast Asia
    • P. vivax in the Americas, India, and Southeast Asia
    • P. malariae in tropical and subtropical Americas, Africa, and Southeast Asia
    • P. ovale in sub-Saharan Africa
    • P. knowlesi in Southeast Asia
  • Resistance varies geographically
    • Chloroquine-resistant P. falciparum is widespread in sub-Saharan Africa, Asia, and the Americas (except Mexico, regions west of the Panama Canal, Haiti, and the Dominican Republic)
    • Chloroquine-resistant P. vivax is in Papua New Guinea and Indonesia, with case reports in many other countries
    • Chloroquine-resistant P. malariae is found in Sumatra and Indonesia
    • Amodiaquine-resistant P. falciparum can be found in Africa and Asia
    • Mefloquine-resistant P. falciparum is in Thailand, Cambodia, Myanmar, and Vietnam, with case reports in Brazil and Africa
    • Sulfadoxine-pyrimethamine resistance is widespread in Southeast Asia, the Amazon Basin, and Africa
    • Atovaquone-proguanil resistance is increasing but still rare
    • Reduced quinine susceptibility is reported in Southeast Asia, sub-Saharan Africa, and South America
    • Reduced artemisinin susceptibility is reported in Cambodia, Thailand, Vietnam, and Myanmar
    • Doxycycline has no known resistance

Clinical Manifestations

  • History of travel to an endemic country
  • Non-specific febrile illness with headaches, myalgias, and malaise
  • Fevers are often periodic, appearing based on rupture of schizonts (tertian and quartan fever)
    • q24h: P. falciparum
    • q48h: P. vivax or P. ovale
    • q72h: P. malariae

Severe Malaria

  • Mostly caused by P. falciparum, though can also be caused by P. vivax

CATMAT Criteria (2019)

  • Clinical
    • Prostration / impaired consciousness
    • Respiratory distress
    • Multiple convulsions, which can be from cerebral malaria, hypoglycemia, severe metabolic acidosis, etc
    • Circulatory collapse
    • Pulmonary edema
    • Abnormal bleeding
    • Jaundice
    • Hemoglobinuria
  • Laboratory
    • Severe anemia (Hb ≤ 70 or Hct <20%)
    • Hypoglycemia (< 2.2)
    • Acidosis (pH < 7.25 or bicarb < 15)
    • Renal impairment (creatinine > 265)
    • Hyperlactatemia
    • Hyperparasitemia
      • ≥ 2% for children < 5 years
      • ≥5% for non-immune adults and children ≥ 5 years
      • ≥10% for semi-immune adults and children ≥ 5 years
  • Non-immune: born in non-endemic or low-transmission areas (e.g. as travellers), and those who are more than 6 to 12 months away from malaria exposure
  • Semi-immune: birth and long-term residence in an endemic country and prior episodes of malaria

Cerebral Malaria

  • Erythrocytes sequester in the cerebral microvessels

Malaria in Pregnancy

  • Accumulation of infected erythrocytes in the placenta, causing IUGR, prematurity, and neonatal mortality

Late or Relapsing Malaria

  • P. vivax and P. ovale can have liver stages (hypnozoites) that lie latent for months to years before causing relapses
  • P. malariae can have a low-level asymptomatic parasitemia lasting for years before presentation

Diagnosis

Thick and Thin Peripheral Blood Films

  • Thick for detecting parasites, thin for parasitemia and species
  • P. knowlesi looks similar to P. malariae but presents like P. falciparum
  • Usually done three times for improved sensitivity

Rapid Diagnostic Antigen Test (RDT)

  • Good sensitivity and specificity for falciparum malaria, but lower sensitivity (66-88%) for non-falciparum or at low levels of parasitemia
  • May cross-react with ANA and RF, and with dengue, hepatitis C, leishmaniasis, trypanosomiasis, schistosomiasis, tuberculosis, and toxoplasmosis
  • May be positive up to 4 weeks after treatment from persistent gamecotyes and slow antigen clearance, so are not used to document treatment success
  • BinaxNow is the only test in Canada
    • T1 band: histidine-rich protein-2 (HRP-2) of P. falciparum
    • T2 band: aldolase, a common antigen of four species of human malaria parasites
    • C+ / T1+ / T2+: P. falciparum or mixed
    • C+ / T1+ / T2–: P. falciparum
    • C+ / T1– / T2+: non-falciparum
    • C+ / T1– / T2–: no malaria
    • Can remain positive for up to 4 weeks due to detection of dead organisms

Molecular Testing

  • PCR is available
  • Done reflexively in Ontario to confirm species and detect a mixed infection

Management

  • All returned travellers with fever should have thick and thin smears to rule out malaria
  • Management depends on species and susceptibility (predicted by country of acquisition), and severity (including the level of parasitemia)
    • Most of the world has chloroquine-resistant P. falciparum, so when in doubt, treat all P. falciparum malaria as resistant
  • All patients with P. falciparum malaria should be considered for hospital admission
    • If severe, advocate for ICU-level care

Concurrent Supportive Care

  • Fluid resuscitation as needed (too much may be harmful in children)
  • Rule out hypoglycemia if sudden change in clinical status (worsened with quinine)
  • Avoid steroids, which are associated with worse outcomes in cerebral malaria
  • Correct coagulopathy and bleeding with blood products and vitamin K
  • If shock develops, treat empirically with antibiotics while getting blood cultures to rule out intercurrent bacteremia

Uncomplicated Malaria

  • Chloroquine-sensitive P. falciparum (Mexico, Central America west of the Panama Canal, Haiti, the Dominican Republic, and most of the Middle East), P. vivax, P. ovale, P. malariae, and P. knowlesi
    • Oral chloroquine 600 mg base po once, followed by 300 mg base po at 6, 24, and 48 hours
      • The dose for salt is 1000 mg and 500 mg
  • Chloroquine-resistant P. falciparum (most of the world) or chloroquine-resistant P. vivax (Papua New Guinea and Indonesia)
  • Prevention of relapsing P. vivax and P. ovale
    • Indicated for patients with prolonged exposure
    • Primaquine 30 mg base daily for 14 days started concurrent with chloroquine
      • First rule out G6PD deficiency and pregnancy
    • If pregnant, just treat intermittently until after delivery

Severe Malaria

  • Usually due to P. falciparum, though can also be caused by P. vivax or P. knowlesi
  • Admit to hospital, ideally ICU
    • Frequent vitals and urine output
    • Capillary glucose at least q4h
  • Antimalarials
    • Artesunate 2.4 mg/kg IV bolus over 1-2 minutes at 0, 12, 24, and 48 hours
    • Quinine 5.8 mg/kg IV loading dose over 30 min followed by 8.3 mg/kg IV infused over 4 hours q8h for 7 days
      • Dose of quinine dihydrochloride would be 7 mg/kg and 10 mg/kg
      • Do not use loading dose if they had quinine within 24 hours or mefloquine within 2 weeks
      • Switch to oral tablets as soon as able to swallow
      • If no infusion pump, run the loading dose as quinine 16.7 mg/kg IV over 4 hours
      • Concurrent to last dose of quinine
  • Treat seizures with benzos; No role for seizure prophylaxis
  • Avoid steroids in cerebral malaria (worse outcomes)
  • Exchange transfusion has been investigated; it reduces parasitemia but has no clinically-important benefits
    • CATMAT still recommends considering it if parasitemia ≥10%
    • Usually 5 to 10 units of pRBC

Pregnancy

Prevention

Behavioural Interventions

  • Mosquito avoidance (Anopheles mosquitoes are evening biters)
    • Long sleeves & pants
    • Insecticide-treated clothing
    • Bed nets, screens on doors & windows

Chemoprophylaxis

Further Reading

References

  1. ^   Severe Malaria. Tropical Medicine & International Health. 2014;19:7-131. doi:10.1111/tmi.12313_2.