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Re-infection of the mosquito: Difference between revisions

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{| class="wikitable" style="border-style: solid; border-width: 5px; border-color: #023020; color:black"
|colspan="1" style = "font-size:100%; color:black; background: #afbddb |'''Re-infection'''
|colspan="1" style = "font-size:100%; color:black; background: #afbddb |'''Gametogenesis and sexual replication'''
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<gallery mode="nolines" widths=300px heights=300px>
File:Mosquito uptake.jpg|<span style="font-size:90%">''Infection of the mosquito''</span>|link={{filepath:Mosquito uptake.jpg}}
File:Mosquito uptake.jpg|<span style="font-size:90%">''Development within the the mosquito''</span>|link={{filepath:Mosquito uptake.jpg}}
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When a mosquito feeds from a malaria infected host, the blood meal will contain parasites of all forms. Importantly these forms include male and female gametocytes. The pH and temperature changes with the mosquito midgut cause the gametocytes to gain full sexual maturity (gametogenesis). The male gametocyte then undergoes 3 cycles of division to generate 8 male sexual forms (gametes). These then 8 gametes then "break out" of the male microgametocytes in a process known as exflagellation, and fuse with the female oocyte (derived from the macrogametocyte). Then following successful fusion move to the next stage of development with the mosquito gut wall. Finally the parasite enter the salivary glands of the mosquito as sporozoites where a new infection can be initiated. 
 
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{| class="wikitable" style="border-style: solid; border-width: 5px; border-color: #023020; color:black"
|colspan="1" style = "font-size:100%; color:black; background: #afbddb |'''Relevance to blood'''
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If samples of blood undergo delayed spreading then the changes to pH and temperature caused by storage may partly mimic the conditions within the mosquito midgut leading to changes that would only normally be seen in the mosquito. Some may be difficult to recognise but are clearly atypical in appearance, others such as "exflagellation" have very clear appearances. It is important to be able to recognise these forms as they can cause confusion and mis-diagnosis.
 
 
 
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File:ExFl4.jpg|<span style="font-size:80%"></span>|link={{filepath:ExFl4.jpg}}
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<span style="font-size:90%">''The gametes of ''P.falciparum'' are seen in the process of exflagellation from  the male gametocyte in a sample that has undergone delayed processing''</span>
<span style="font-size:200%">&#x2192;</span>[[Images of gametocyte development in stored blood|Click for additional clinical images]]


When a mosquito feeds from a malaria infected hosts, the blood meal will contain parasites of all formas, but importantly including male and female gametocytes. The pH and temperature changes with the mosquito stomach cause the gametocytes to gain full sexual maturity (gemtogenesis). The male undergoes 3 cycles of division to generate 8 male sexual forms (gametes). These then 8 gamaetes then "break out" of the male gametocytes (the microgametocyte) in a process known as exflagellation and fuse with the female gamete to move to the next stage of development with the mosquito gut wall, before finally entering the salivary glands of the mosquito where a new infection can be initiated. 


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[[Storage changes in malaria]]

Latest revision as of 12:16, 1 May 2024

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Gametogenesis and sexual replication
  • Development within the the mosquito

    Development within the the mosquito

When a mosquito feeds from a malaria infected host, the blood meal will contain parasites of all forms. Importantly these forms include male and female gametocytes. The pH and temperature changes with the mosquito midgut cause the gametocytes to gain full sexual maturity (gametogenesis). The male gametocyte then undergoes 3 cycles of division to generate 8 male sexual forms (gametes). These then 8 gametes then "break out" of the male microgametocytes in a process known as exflagellation, and fuse with the female oocyte (derived from the macrogametocyte). Then following successful fusion move to the next stage of development with the mosquito gut wall. Finally the parasite enter the salivary glands of the mosquito as sporozoites where a new infection can be initiated.


Relevance to blood

If samples of blood undergo delayed spreading then the changes to pH and temperature caused by storage may partly mimic the conditions within the mosquito midgut leading to changes that would only normally be seen in the mosquito. Some may be difficult to recognise but are clearly atypical in appearance, others such as "exflagellation" have very clear appearances. It is important to be able to recognise these forms as they can cause confusion and mis-diagnosis.


The gametes of P.falciparum are seen in the process of exflagellation from the male gametocyte in a sample that has undergone delayed processing


Click for additional clinical images


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