Malaria parasite clearance

Following anti-malarial drug treatment asexual malaria parasite killing and clearance appear to be first order processes. Damaged malaria parasites in circulating erythrocytes are removed from the circulation mainly by the spleen. Splenic clearance functions increase markedly in acute malaria. Eithe...

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Veröffentlicht in:	Malaria journal 2017-02, Vol.16 (1), p.88-88, Article 88
1. Verfasser:	White, Nicholas J
Format:	Artikel
Sprache:	eng
Schlagworte:	Antibiotics Antimalarials Antimalarials - therapeutic use Artemisinin Artesunate Asexuality Blood Capillaries Deformability Dormancy Dosage and administration Drug therapy Drugs Endothelium Erythrocytes Erythrocytes - parasitology Haemolysis Half-Life Human diseases Humans Immune clearance Immunosuppressive agents Infections Leukocytes Liver Malaria Malaria - blood Malaria - drug therapy Malaria - parasitology Optimization Parasitemia - blood Parasitemia - drug therapy Parasitemia - parasitology Parasites Phagocytes Pharmacodynamics Pharmacokinetics Plasmodium Plasmodium - drug effects Plasmodium - physiology Plasmodium falciparum Population Review Spleen Survival Vector-borne diseases
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description	Following anti-malarial drug treatment asexual malaria parasite killing and clearance appear to be first order processes. Damaged malaria parasites in circulating erythrocytes are removed from the circulation mainly by the spleen. Splenic clearance functions increase markedly in acute malaria. Either the entire infected erythrocytes are removed because of their reduced deformability or increased antibody binding or, for the artemisinins which act on young ring stage parasites, splenic pitting of drug-damaged parasites is an important mechanism of clearance. The once-infected erythrocytes returned to the circulation have shortened survival. This contributes to post-artesunate haemolysis that may follow recovery in non-immune hyperparasitaemic patients. As the parasites mature Plasmodium vivax-infected erythrocytes become more deformable, whereas Plasmodium falciparum-infected erythrocytes become less deformable, but they escape splenic filtration by sequestering in venules and capillaries. Sequestered parasites are killed in situ by anti-malarial drugs and then disintegrate to be cleared by phagocytic leukocytes. After treatment with artemisinin derivatives some asexual parasites become temporarily dormant within their infected erythrocytes, and these may regrow after anti-malarial drug concentrations decline. Artemisinin resistance in P. falciparum reflects reduced ring stage susceptibility and manifests as slow parasite clearance. This is best assessed from the slope of the log-linear phase of parasitaemia reduction and is commonly measured as a parasite clearance half-life. Pharmacokinetic-pharmacodynamic modelling of anti-malarial drug effects on parasite clearance has proved useful in predicting therapeutic responses and in dose-optimization.
doi_str_mv	10.1186/s12936-017-1731-1
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Sequestered parasites are killed in situ by anti-malarial drugs and then disintegrate to be cleared by phagocytic leukocytes. After treatment with artemisinin derivatives some asexual parasites become temporarily dormant within their infected erythrocytes, and these may regrow after anti-malarial drug concentrations decline. Artemisinin resistance in P. falciparum reflects reduced ring stage susceptibility and manifests as slow parasite clearance. This is best assessed from the slope of the log-linear phase of parasitaemia reduction and is commonly measured as a parasite clearance half-life. 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Damaged malaria parasites in circulating erythrocytes are removed from the circulation mainly by the spleen. Splenic clearance functions increase markedly in acute malaria. Either the entire infected erythrocytes are removed because of their reduced deformability or increased antibody binding or, for the artemisinins which act on young ring stage parasites, splenic pitting of drug-damaged parasites is an important mechanism of clearance. The once-infected erythrocytes returned to the circulation have shortened survival. This contributes to post-artesunate haemolysis that may follow recovery in non-immune hyperparasitaemic patients. As the parasites mature Plasmodium vivax-infected erythrocytes become more deformable, whereas Plasmodium falciparum-infected erythrocytes become less deformable, but they escape splenic filtration by sequestering in venules and capillaries. Sequestered parasites are killed in situ by anti-malarial drugs and then disintegrate to be cleared by phagocytic leukocytes. After treatment with artemisinin derivatives some asexual parasites become temporarily dormant within their infected erythrocytes, and these may regrow after anti-malarial drug concentrations decline. Artemisinin resistance in P. falciparum reflects reduced ring stage susceptibility and manifests as slow parasite clearance. This is best assessed from the slope of the log-linear phase of parasitaemia reduction and is commonly measured as a parasite clearance half-life. Pharmacokinetic-pharmacodynamic modelling of anti-malarial drug effects on parasite clearance has proved useful in predicting therapeutic responses and in dose-optimization.</description><subject>Antibiotics</subject><subject>Antimalarials</subject><subject>Antimalarials - therapeutic use</subject><subject>Artemisinin</subject><subject>Artesunate</subject><subject>Asexuality</subject><subject>Blood</subject><subject>Capillaries</subject><subject>Deformability</subject><subject>Dormancy</subject><subject>Dosage and administration</subject><subject>Drug therapy</subject><subject>Drugs</subject><subject>Endothelium</subject><subject>Erythrocytes</subject><subject>Erythrocytes - parasitology</subject><subject>Haemolysis</subject><subject>Half-Life</subject><subject>Human diseases</subject><subject>Humans</subject><subject>Immune clearance</subject><subject>Immunosuppressive agents</subject><subject>Infections</subject><subject>Leukocytes</subject><subject>Liver</subject><subject>Malaria</subject><subject>Malaria - 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Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Malaria journal</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>White, Nicholas J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Malaria parasite clearance</atitle><jtitle>Malaria journal</jtitle><addtitle>Malar J</addtitle><date>2017-02-23</date><risdate>2017</risdate><volume>16</volume><issue>1</issue><spage>88</spage><epage>88</epage><pages>88-88</pages><artnum>88</artnum><issn>1475-2875</issn><eissn>1475-2875</eissn><abstract>Following anti-malarial drug treatment asexual malaria parasite killing and clearance appear to be first order processes. Damaged malaria parasites in circulating erythrocytes are removed from the circulation mainly by the spleen. Splenic clearance functions increase markedly in acute malaria. Either the entire infected erythrocytes are removed because of their reduced deformability or increased antibody binding or, for the artemisinins which act on young ring stage parasites, splenic pitting of drug-damaged parasites is an important mechanism of clearance. The once-infected erythrocytes returned to the circulation have shortened survival. This contributes to post-artesunate haemolysis that may follow recovery in non-immune hyperparasitaemic patients. As the parasites mature Plasmodium vivax-infected erythrocytes become more deformable, whereas Plasmodium falciparum-infected erythrocytes become less deformable, but they escape splenic filtration by sequestering in venules and capillaries. Sequestered parasites are killed in situ by anti-malarial drugs and then disintegrate to be cleared by phagocytic leukocytes. After treatment with artemisinin derivatives some asexual parasites become temporarily dormant within their infected erythrocytes, and these may regrow after anti-malarial drug concentrations decline. Artemisinin resistance in P. falciparum reflects reduced ring stage susceptibility and manifests as slow parasite clearance. This is best assessed from the slope of the log-linear phase of parasitaemia reduction and is commonly measured as a parasite clearance half-life. Pharmacokinetic-pharmacodynamic modelling of anti-malarial drug effects on parasite clearance has proved useful in predicting therapeutic responses and in dose-optimization.</abstract><cop>England</cop><pub>BioMed Central Ltd</pub><pmid>28231817</pmid><doi>10.1186/s12936-017-1731-1</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-1897-1978</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Antibiotics Antimalarials Antimalarials - therapeutic use Artemisinin Artesunate Asexuality Blood Capillaries Deformability Dormancy Dosage and administration Drug therapy Drugs Endothelium Erythrocytes Erythrocytes - parasitology Haemolysis Half-Life Human diseases Humans Immune clearance Immunosuppressive agents Infections Leukocytes Liver Malaria Malaria - blood Malaria - drug therapy Malaria - parasitology Optimization Parasitemia - blood Parasitemia - drug therapy Parasitemia - parasitology Parasites Phagocytes Pharmacodynamics Pharmacokinetics Plasmodium Plasmodium - drug effects Plasmodium - physiology Plasmodium falciparum Population Review Spleen Survival Vector-borne diseases
title	Malaria parasite clearance
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