Plasmodium ovale: Morphology: Difference between revisions

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• Large and robust-appearing rings, not generally multiply infected
• Red cells may become enlarged, and may be ovoid or fimbriated apearance
• James' dots (indistinguishable from Schuffner’s dots) often appear
• Pigment will not generally be present at the early trophozoite stage

During this growth stage parasites grows but generally retain a ring shape, this process is accompanied by further modification of the red cell with ovoid and fimbriated features more common; metabolism of haemoglobin causes malaria pigment to form.

• Parasites become larger and thickened, but the ring form is generally retained
• Red cell enlargement is seen and distortion causing ovoid and fimbriated forms
• James’ dots will now be prominent in appropriately stained specimens
• Pigment will now be seen over the surface of the parasite

The asexual stage of malaria parasite development - only some trophozoites form schizonts, but those that do undergo successive cycles of replication within the red cell to generate multiple "merozoites" that then each invade a new red cell to continue and increase the infection.

• a range of maturing schizonts will generally be present within enlarged red cells
• when mature schizonts may contain 16-24 separate merozoites
• Schüffner's dots can be detected in any residual cytoplasm of the erythrocyte
• malaria pigment is visible in irregularly distributed clumps over the schizont surface

The gametocyte

The sexual replication form (very distinctive).

• red cells are very large and have ovoid or distorted forms
• macrogametocytes (female form) will often entirely fill the erythrocyte
• microgametocytes (male form) have a cytoplasmic rim with visible Schüffner's dots
• malaria pigment is clumped evenly over the surface of the gametocyte