Malaria

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Malaria is a [[Disease|disease]] prevalent in Sub Saharan Africa, Asia and North and South America. It is caused by the [[Parasite|parasite]], ''[[Plasmodium|Plasmodium]]<ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>''. There are five species of Plasmodium that infect humans; Plasmodium falciparum, Plasmodium vivax, Plasmodium ovale, Plasmodium malariae and Plasmodium knowlesi.<ref>Malaria Parasites." Centers for Disease Control and Prevention. Centers for Disease Control and Prevention, 27 Oct. 2015. Web.</ref> The [[Parasite|parasite]] is spread by the bite of an infected mosquito. The mosquito acts as a [[Vector|vector]]. The effect on the human body is that the [[Parasite|parasites ]]multiply in the liver which then goes on to infect the [[Red blood cells|red blood cells]]<ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>. <br>A person infected by the [[Parasite|parasite ]]usually has the following symptoms: a fever, vomiting and/or a headache<ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>. Symptoms appear between 10 and 15 days after the mosquito bite. <br>If left untreated, the effects can be lethal<ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>. The [[Blood supply|blood supply]] to all major [[Organ|organs]] can be disturbed<ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>.<br>
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Malaria is a [[Disease|disease]] prevalent in Sub Saharan Africa, Asia and North and South America. It is caused by the [[Parasite|parasite]], ''[[Plasmodium|Plasmodium]]<ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>.''. There are five species of ''Plasmodium'' that infect humans; ''Plasmodium falciparum'', ''Plasmodium vivax'', P''lasmodium ovale'', ''Plasmodium malariae'' and ''Plasmodium knowles''i<ref>Malaria Parasites." Centres for Disease Control and Prevention. Centres for Disease Control and Prevention, 27 Oct. 2015. Web.</ref>. The [[Parasite|parasite]] is spread by the bite of an infected mosquito. The mosquito acts as a [[Vector|vector]]. The effect on the human body is that the [[Parasite|parasites]] multiply in the liver which then goes on to infect the [[Red blood cells|red blood cells]]<ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>. A person infected by the [[Parasite|parasite]] usually has the following symptoms: a fever, vomiting and/or a headache<ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>. Symptoms appear between 10 and 15 days after the mosquito bite. If left untreated, the effects can be lethal<ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>. The [[Blood supply|blood supply]] to all major [[Organ|organs]] can be disturbed<ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>.  
  
 
=== Life cycle  ===
 
=== Life cycle  ===
  
Malaria sporozoites are injected into the host by female&nbsp;''Anopheles mosquito''. Once in the blood stream&nbsp;they travel&nbsp; to the liver where they invade the [[Hepatocytes|hepatocytes]]. While in the hepatocytes the sporozoites grow and divide to form thousands of [[Haploid|haploid]] [[Merozoites|merozoites]] in each hepatocyte. The merozoites then exit the liver re-entering the blood stream and infecting [[Red blood cells|erythrocytes]] and reproducing asexually. This continues until the [[Red blood cells|erythrocytes]] eventually lyse. This process in the cause of malaria related anaemia. This cycle of replication can continue for up to 3 days. Some merozoites, however, do not divide asexually and instead develop into the sexual forms of the [[Parasite|parasite]]; male and female gametocytes. These cells circulate in the blood stream until the host is bitten by another Anopheles mosquito. [[Gametocyte|Gametocyte]] infected [[Red blood cells|erythrocytes]] are taken into the mosquito stomach where they lyse, releasing the gametocytes. The gametocyte then develop into [[Gametes|gametes]] and fuse to form [[Diploid|diploid]] [[Ookinetes|ookinetes]]. Ookinetes develop into [[Oocyst|oocysts]]. While in the cysts ookinetes differentiate into [[Sporozoite|sporozoites]]. Eventually the cysts burst releasing the sporozoites into the body of mosquito. The cell then migrate to salivary glands of the mosquito, ready to repeat the cycle&nbsp;<ref>cycleNational institute of allergy and infectious diseases,2012, http://www.niaid.nih.gov/topics/Malaria/Pages/lifecycle.aspx, date acessed; 30/11/2012</ref><ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>.<br>
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Malaria sporozoites are injected into the host by female ''Anopheles mosquito''. Once in the bloodstream, they travel to the liver where they invade the [[Hepatocytes|hepatocytes]]. While in the hepatocytes the sporozoites grow and divide to form thousands of [[Haploid|haploid]] [[Merozoites|merozoites]] in each hepatocyte. The merozoites then exit the liver re-entering the bloodstream and infecting [[Red blood cells|erythrocytes]] and reproducing asexually. This continues until the [[Red blood cells|erythrocytes]] eventually lyse. This process in the cause of malaria-related anaemia. This cycle of replication can continue for up to 3 days. Some merozoites, however, do not divide asexually and instead develop into the sexual forms of the [[Parasite|parasite]]; male and female gametocytes. These cells circulate in the bloodstream until the host is bitten by another Anopheles mosquito. [[Gametocyte|Gametocyte]] infected [[Red blood cells|erythrocytes]] are taken into the mosquito stomach where they lyse, releasing the gametocytes. The gametocyte then develop into [[Gametes|gametes]] and fuse to form [[Diploid|diploid]] [[Ookinetes|ookinetes]]. Ookinetes develop into [[Oocyst|oocysts]]. While in the cysts ookinetes differentiate into [[Sporozoite|sporozoites]]. Eventually, the cysts burst to release the sporozoites into the body of mosquito. The cell then migrates to salivary glands of the mosquito, ready to repeat the cycle<ref>cycleNational institute of allergy and infectious diseases,2012, http://www.niaid.nih.gov/topics/Malaria/Pages/lifecycle.aspx, date accessed; 30/11/2012</ref><ref>World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)</ref>.  
  
=== Treatment&nbsp; ===
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=== Control ===
  
Currently, the best recommended treatment for this disease is [[Artemisinin-based combination therapy|artemisinin-based combination therapy]]<ref>Malaria Consortium, Artemisinin-based Combination Therapy. Available at http://www.malariaconsortium.org/pages/112.htm (last accessed 27th November 2014)</ref>. This therapy make use of a combination of drugs using artemisinin derivatives taken from a highly potent Chinese plant called Artemesia annua combined with other drug from a different class. Some artemisinin derivatives&nbsp;include dihydroartemisinin, artesunate and artemether<ref>Malaria Consortium, Artemisinin-based Combination Therapy. Available at http://www.malariaconsortium.org/pages/112.htm (last accessed 27th November 2014)</ref> while examples of companion drugs are lumefantrine, mefloquine, amodiaquine, sulfadoxine/pyrimethamine, piperaquine and chlorproguanil/dapsone<ref>Malaria Consortium, Artemisinin-based Combination Therapy. Available at http://www.malariaconsortium.org/pages/112.htm (last accessed 27th November 2014)</ref>.  
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Along with a reliable cure, controlling the propagation of malaria and its vectors is equally important. Taking a few precautions at home such as adding a wire mesh screen on windows and making use of bed netting can significantly reduce the number of people who are affected by malaria. Maintenance of the societies garbage disposal facilities and to prevent the collection of stagnant water will help inhibit the breeding of mosquitoes in the vicinity. Introducing a species of fish "Gambusia" in local ponds and lakes, help diminish the mosquitoes population as the fish feed of the mosquito larvae.
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=== Treatment  ===
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Currently, the best-recommended treatment for this disease is [[Artemisinin-based combination therapy|artemisinin-based combination therapy]]<ref>Malaria Consortium, Artemisinin-based Combination Therapy. Available at http://www.malariaconsortium.org/pages/112.htm (last accessed 27th November 2014)</ref>. This therapy makes use of a combination of drugs using artemisinin derivatives taken from a highly potent Chinese plant called Artemesia annua combined with other drugs from a different class. Some artemisinin derivatives include dihydroartemisinin, artesunate and artemether<ref>Malaria Consortium, Artemisinin-based Combination Therapy. Available at http://www.malariaconsortium.org/pages/112.htm (last accessed 27th November 2014)</ref>&nbsp;while examples of companion drugs are lumefantrine, mefloquine, amodiaquine, sulfadoxine/pyrimethamine, piperaquine and chlorproguanil/dapsone<ref>Malaria Consortium, Artemisinin-based Combination Therapy. Available at http://www.malariaconsortium.org/pages/112.htm (last accessed 27th November 2014)</ref>.  
  
 
=== References  ===
 
=== References  ===
  
 
<references />
 
<references />

Latest revision as of 20:29, 22 October 2018

Malaria is a disease prevalent in Sub Saharan Africa, Asia and North and South America. It is caused by the parasite, Plasmodium[1].. There are five species of Plasmodium that infect humans; Plasmodium falciparum, Plasmodium vivax, Plasmodium ovale, Plasmodium malariae and Plasmodium knowlesi[2]. The parasite is spread by the bite of an infected mosquito. The mosquito acts as a vector. The effect on the human body is that the parasites multiply in the liver which then goes on to infect the red blood cells[3]. A person infected by the parasite usually has the following symptoms: a fever, vomiting and/or a headache[4]. Symptoms appear between 10 and 15 days after the mosquito bite. If left untreated, the effects can be lethal[5]. The blood supply to all major organs can be disturbed[6].

Contents

Life cycle

Malaria sporozoites are injected into the host by female Anopheles mosquito. Once in the bloodstream, they travel to the liver where they invade the hepatocytes. While in the hepatocytes the sporozoites grow and divide to form thousands of haploid merozoites in each hepatocyte. The merozoites then exit the liver re-entering the bloodstream and infecting erythrocytes and reproducing asexually. This continues until the erythrocytes eventually lyse. This process in the cause of malaria-related anaemia. This cycle of replication can continue for up to 3 days. Some merozoites, however, do not divide asexually and instead develop into the sexual forms of the parasite; male and female gametocytes. These cells circulate in the bloodstream until the host is bitten by another Anopheles mosquito. Gametocyte infected erythrocytes are taken into the mosquito stomach where they lyse, releasing the gametocytes. The gametocyte then develop into gametes and fuse to form diploid ookinetes. Ookinetes develop into oocysts. While in the cysts ookinetes differentiate into sporozoites. Eventually, the cysts burst to release the sporozoites into the body of mosquito. The cell then migrates to salivary glands of the mosquito, ready to repeat the cycle[7][8].

Control

Along with a reliable cure, controlling the propagation of malaria and its vectors is equally important. Taking a few precautions at home such as adding a wire mesh screen on windows and making use of bed netting can significantly reduce the number of people who are affected by malaria. Maintenance of the societies garbage disposal facilities and to prevent the collection of stagnant water will help inhibit the breeding of mosquitoes in the vicinity. Introducing a species of fish "Gambusia" in local ponds and lakes, help diminish the mosquitoes population as the fish feed of the mosquito larvae.

Treatment

Currently, the best-recommended treatment for this disease is artemisinin-based combination therapy[9]. This therapy makes use of a combination of drugs using artemisinin derivatives taken from a highly potent Chinese plant called Artemesia annua combined with other drugs from a different class. Some artemisinin derivatives include dihydroartemisinin, artesunate and artemether[10] while examples of companion drugs are lumefantrine, mefloquine, amodiaquine, sulfadoxine/pyrimethamine, piperaquine and chlorproguanil/dapsone[11].

References

  1. World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)
  2. Malaria Parasites." Centres for Disease Control and Prevention. Centres for Disease Control and Prevention, 27 Oct. 2015. Web.
  3. World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)
  4. World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)
  5. World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)
  6. World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)
  7. cycleNational institute of allergy and infectious diseases,2012, http://www.niaid.nih.gov/topics/Malaria/Pages/lifecycle.aspx, date accessed; 30/11/2012
  8. World Health Organisation, Health topics: Malaria article. Available at http://www.who.int/topics/malaria/en/ (last accessed 30.11.2012)
  9. Malaria Consortium, Artemisinin-based Combination Therapy. Available at http://www.malariaconsortium.org/pages/112.htm (last accessed 27th November 2014)
  10. Malaria Consortium, Artemisinin-based Combination Therapy. Available at http://www.malariaconsortium.org/pages/112.htm (last accessed 27th November 2014)
  11. Malaria Consortium, Artemisinin-based Combination Therapy. Available at http://www.malariaconsortium.org/pages/112.htm (last accessed 27th November 2014)
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