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Pan-malarial LDH: Difference between revisions

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{{DISPLAYTITLE:<span style="position: absolute; clip: rect(1px 1px 1px 1px); clip: rect(1px, 1px, 1px, 1px);">{{FULLPAGENAME}}</span>}}
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'''Navigation'''</br>
<span style="font-size:90%">>[[MalariaETC Index|Main Malaria Index]]''</span></br>
<span style="font-size:90%">>>[[Rapid diagnostic tests (RDTs)|RDT main page]]''</span></br>
<span style="font-size:90%">>>>[[RDT_test:_antigens|RDT test antigens]]</span></br>
<span style="font-size:90%">>>>Current page: '''The {{DISPLAYTITLE:<span style="position: absolute; clip: rect(1px 1px 1px 1px); clip: rect(1px, 1px, 1px, 1px);">{{FULLPAGENAME}}</span>}}
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'''Navigation'''</br>
'''Navigation'''</br>
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<span style="font-size:90%">>>>[[RDT_test:_antigens|RDT test antigens]]</span></br>
<span style="font-size:90%">>>>[[RDT_test:_antigens|RDT test antigens]]</span></br>
<span style="font-size:90%">>>>Current page: '''The HRP2 antigen'''</span>
<span style="font-size:90%">>>>Current page: '''The HRP2 antigen'''</span>
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{| class="wikitable" style="widthe:90%; border-style: solid; border-width: 4px; border-color:teal"
|colspan="1" style = "font-size:140%; color:black; background: FFFAFA"|<span style="color:black>'''{{DISPLAYTITLE:<span style="position: absolute; clip: rect(1px 1px 1px 1px); clip: rect(1px, 1px, 1px, 1px);">{{FULLPAGENAME}}</span>}}
----
'''Navigation'''</br>
<span style="font-size:90%">>[[MalariaETC Index|Main Malaria Index]]''</span></br>
<span style="font-size:90%">>>[[Rapid diagnostic tests (RDTs)|RDT main page]]''</span></br>
<span style="font-size:90%">>>>[[RDT_test:_antigens|RDT test antigens]]</span></br>
<span style="font-size:90%">>>>Current page: '''The HRP2 antigen'''</span>
----
{| class="wikitable" style="widthe:90%; border-style: solid; border-width: 4px; border-color:teal"
|colspan="1" style = "font-size:140%; color:black; background: FFFAFA"|<span style="color:black>'''Pan-malarial antigens''' - practicalities'''</span>
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'''Background:'''</br> Plasmodium aldolase (Paldolase) and plasmodium lactate dehydrogenase (PLDH) are part of glycolysis pathways in all malaria species. Since malaria parasites have specific forms, antibodies do not cross-react with human aldolase or LDH. Antibodies to these proteins may potentially recognise all species of malaria and are known as “pan-malaria specific antibodies”. These are:</br>
*Plasmodium lactate dehydrogenase (PpanLDH)
*Plasmodium aldolase (Paldolase)
----
'''Use of Pan-malarial antifgens in RDT tests'''
Outside of Africa, the most frequently used form of malaria RDT combines a species-specific with a pan-species antibody e.g. HRP2/LDH or HRP2/aldolase
----
'''Use in malaria testing'''</br>
Since pan-malarial antibody tests have the potential to detect any species of malaria they are attractive in diagnostic tests. However, thisusefulness is limited since although both offer good sensitivity for the recognition of ‘’P.falciparum’’ and ‘’P.vivax’’ they are less effective in the detection of other species (particularly at lower parasite concentrations).
Their use in combination tests is helpful when:</br>
(1) A malarial species may be present that would not be detected by the species-specific antibody. The pan-malarial antibody may detect that species.</br>
(2) If the species-specific antibody gives a false negative result (for example, [[False negative results and HRP2 gene deletion|gene deletion]] or [[False negative results and the prozone effect|prozone effect]]) then the pan-malarial antibody may still allow the infection to be detected.
''' - practicalities'''</span>
----
'''Background:'''</br> Plasmodium aldolase (Paldolase) and plasmodium lactate dehydrogenase (PLDH) are part of glycolysis pathways in all malaria species. Since malaria parasites have specific forms, antibodies do not cross-react with human aldolase or LDH. Antibodies to these proteins may potentially recognise all species of malaria and are known as “pan-malaria specific antibodies”. These are:</br>
*Plasmodium lactate dehydrogenase (PpanLDH)
*Plasmodium aldolase (Paldolase)
----
'''Use of Pan-malarial antifgens in RDT tests'''
Outside of Africa, the most frequently used form of malaria RDT combines a species-specific with a pan-species antibody e.g. HRP2/LDH or HRP2/aldolase
----
'''Use in malaria testing'''</br>
Since pan-malarial antibody tests have the potential to detect any species of malaria they are attractive in diagnostic tests. However, thisusefulness is limited since although both offer good sensitivity for the recognition of ‘’P.falciparum’’ and ‘’P.vivax’’ they are less effective in the detection of other species (particularly at lower parasite concentrations).
Their use in combination tests is helpful when:</br>
(1) A malarial species may be present that would not be detected by the species-specific antibody. The pan-malarial antibody may detect that species.</br>
(2) If the species-specific antibody gives a false negative result (for example, [[False negative results and HRP2 gene deletion|gene deletion]] or [[False negative results and the prozone effect|prozone effect]]) then the pan-malarial antibody may still allow the infection to be detected.
antigen'''</span>
----
----


Revision as of 12:47, 3 October 2024

Navigation
>Main Malaria Index
 >>RDT main page
 >>>RDT test antigens
>>>Current page: The

Navigation
>Main Malaria Index
 >>RDT main page
 >>>RDT test antigens
>>>Current page: The HRP2 antigen

Navigation
>Main Malaria Index
 >>RDT main page
 >>>RDT test antigens
>>>Current page: The HRP2 antigen

Pan-malarial antigens - practicalities

Background:
Plasmodium aldolase (Paldolase) and plasmodium lactate dehydrogenase (PLDH) are part of glycolysis pathways in all malaria species. Since malaria parasites have specific forms, antibodies do not cross-react with human aldolase or LDH. Antibodies to these proteins may potentially recognise all species of malaria and are known as “pan-malaria specific antibodies”. These are:

  • Plasmodium lactate dehydrogenase (PpanLDH)
  • Plasmodium aldolase (Paldolase)

Use of Pan-malarial antifgens in RDT tests

Outside of Africa, the most frequently used form of malaria RDT combines a species-specific with a pan-species antibody e.g. HRP2/LDH or HRP2/aldolase

Use in malaria testing
Since pan-malarial antibody tests have the potential to detect any species of malaria they are attractive in diagnostic tests. However, thisusefulness is limited since although both offer good sensitivity for the recognition of ‘’P.falciparum’’ and ‘’P.vivax’’ they are less effective in the detection of other species (particularly at lower parasite concentrations).

Their use in combination tests is helpful when:
(1) A malarial species may be present that would not be detected by the species-specific antibody. The pan-malarial antibody may detect that species.
(2) If the species-specific antibody gives a false negative result (for example, gene deletion or prozone effect) then the pan-malarial antibody may still allow the infection to be detected. - practicalities

Background:
Plasmodium aldolase (Paldolase) and plasmodium lactate dehydrogenase (PLDH) are part of glycolysis pathways in all malaria species. Since malaria parasites have specific forms, antibodies do not cross-react with human aldolase or LDH. Antibodies to these proteins may potentially recognise all species of malaria and are known as “pan-malaria specific antibodies”. These are:

  • Plasmodium lactate dehydrogenase (PpanLDH)
  • Plasmodium aldolase (Paldolase)

Use of Pan-malarial antifgens in RDT tests

Outside of Africa, the most frequently used form of malaria RDT combines a species-specific with a pan-species antibody e.g. HRP2/LDH or HRP2/aldolase

Use in malaria testing
Since pan-malarial antibody tests have the potential to detect any species of malaria they are attractive in diagnostic tests. However, thisusefulness is limited since although both offer good sensitivity for the recognition of ‘’P.falciparum’’ and ‘’P.vivax’’ they are less effective in the detection of other species (particularly at lower parasite concentrations).

Their use in combination tests is helpful when:
(1) A malarial species may be present that would not be detected by the species-specific antibody. The pan-malarial antibody may detect that species.
(2) If the species-specific antibody gives a false negative result (for example, gene deletion or prozone effect) then the pan-malarial antibody may still allow the infection to be detected. 

antigen
Pan-malarial antigens - practicalities

Background:
Plasmodium aldolase (Paldolase) and plasmodium lactate dehydrogenase (PLDH) are part of glycolysis pathways in all malaria species. Since malaria parasites have specific forms, antibodies do not cross-react with human aldolase or LDH. Antibodies to these proteins may potentially recognise all species of malaria and are known as “pan-malaria specific antibodies”. These are:

  • Plasmodium lactate dehydrogenase (PpanLDH)
  • Plasmodium aldolase (Paldolase)

Use of Pan-malarial antifgens in RDT tests

Outside of Africa, the most frequently used form of malaria RDT combines a species-specific with a pan-species antibody e.g. HRP2/LDH or HRP2/aldolase

Use in malaria testing
Since pan-malarial antibody tests have the potential to detect any species of malaria they are attractive in diagnostic tests. However, thisusefulness is limited since although both offer good sensitivity for the recognition of ‘’P.falciparum’’ and ‘’P.vivax’’ they are less effective in the detection of other species (particularly at lower parasite concentrations).

Their use in combination tests is helpful when:
(1) A malarial species may be present that would not be detected by the species-specific antibody. The pan-malarial antibody may detect that species.
(2) If the species-specific antibody gives a false negative result (for example, gene deletion or prozone effect) then the pan-malarial antibody may still allow the infection to be detected.

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