Microrheological Studies of the Effects of Intraerythrocytic Parasites on Red Cell Deformability
Identifieur interne : 000809 ( Istex/Corpus ); précédent : 000808; suivant : 000810Microrheological Studies of the Effects of Intraerythrocytic Parasites on Red Cell Deformability
Auteurs : S. P. Sutera ; D. J. KrogstadSource :
Abstract
Abstract: The normal human erythrocyte must be highly deformable in vivo to pass through peripheral capillaries with luminal diameters of 3–4 µm and through the interendothelial slits associated with the basement membrane fenestrations of the spleen. A significant aspect of red cell deformability is the tendency of the red cell membrane to rotate around its cytoplasmic contents when the cell is subjected to shearing action by the surrounding plasma [14]. This so-called tank-treading motion reduces the hydraulic resistance to red cell passage through capillaries [11] and may also facilitate oxygen exchange between the red cell and the capillary endothelium.
Url:
DOI: 10.1007/978-3-642-71787-1_15
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Grant="OpenAccess"></MetadataGrant><AbstractGrant Grant="OpenAccess"></AbstractGrant><BodyPDFGrant Grant="Restricted"></BodyPDFGrant><BodyHTMLGrant Grant="Restricted"></BodyHTMLGrant><BibliographyGrant Grant="Restricted"></BibliographyGrant><ESMGrant Grant="Restricted"></ESMGrant></ChapterGrants><ChapterContext><PartID>3</PartID><BookID>978-3-642-71787-1</BookID><BookTitle>Cerebral Ischemia and Hemorheology</BookTitle></ChapterContext></ChapterInfo><ChapterHeader><AuthorGroup><Author AffiliationIDS="Aff3"><AuthorName DisplayOrder="Western"><GivenName>S.</GivenName><GivenName>P.</GivenName><FamilyName>Sutera</FamilyName></AuthorName></Author><Author AffiliationIDS="Aff4"><AuthorName DisplayOrder="Western"><GivenName>D.</GivenName><GivenName>J.</GivenName><FamilyName>Krogstad</FamilyName></AuthorName></Author><Affiliation ID="Aff3"><OrgDivision>Department of Mechanical Engineering</OrgDivision><OrgName>Washington University</OrgName><OrgAddress><Street>Campus Box 1185</Street><Postcode>63130</Postcode><City>St. Louis</City><State>MO</State><Country>USA</Country></OrgAddress></Affiliation><Affiliation ID="Aff4"><OrgDivision>Divisions of Laboratory Medicine and Infectious Diseases, Departments of Pathology and Medicine</OrgDivision><OrgName>Washington University School of Medicine</OrgName><OrgAddress><Street>660 S. Euclid</Street><Postbox>Box 8118</Postbox><Postcode>63130</Postcode><City>St. Louis</City><State>MO</State><Country>USA</Country></OrgAddress></Affiliation></AuthorGroup><Abstract ID="Abs1" Language="En" OutputMedium="Online"><Heading>Abstract</Heading><Para>The normal human erythrocyte must be highly deformable in vivo to pass through peripheral capillaries with luminal diameters of 3–4 µm and through the interendothelial slits associated with the basement membrane fenestrations of the spleen. A significant aspect of red cell deformability is the tendency of the red cell membrane to rotate around its cytoplasmic contents when the cell is subjected to shearing action by the surrounding plasma [14]. This so-called tank-treading motion reduces the hydraulic resistance to red cell passage through capillaries [11] and may also facilitate oxygen exchange between the red cell and the capillary endothelium.</Para></Abstract></ChapterHeader><NoBody></NoBody></Chapter></Part></Book></Publisher></istex:document></istex:metadataXml><mods version="3.6"><titleInfo lang="en"><title>Microrheological Studies of the Effects of Intraerythrocytic Parasites on Red Cell Deformability</title></titleInfo><titleInfo type="alternative" contentType="CDATA"><title>Microrheological Studies of the Effects of Intraerythrocytic Parasites on Red Cell Deformability</title></titleInfo><name type="personal"><namePart type="given">S.</namePart><namePart type="given">P.</namePart><namePart type="family">Sutera</namePart><affiliation>Department of Mechanical Engineering, Washington University, Campus Box 1185, 63130, St. Louis, MO, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">D.</namePart><namePart type="given">J.</namePart><namePart type="family">Krogstad</namePart><affiliation>Divisions of Laboratory Medicine and Infectious Diseases, Departments of Pathology and Medicine, Washington University School of Medicine, 660 S. Euclid, Box 8118, 63130, St. Louis, MO, USA</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="termsOfAddress">Professor Dr.</namePart><namePart type="given">Alexander</namePart><namePart type="family">Hartmann</namePart><affiliation>Neurologische Universitätsklinik, Sigmund-Freud-Str. 25, D-5300, Bonn 1, Germany</affiliation><role><roleTerm type="text">editor</roleTerm></role></name><name type="personal"><namePart type="termsOfAddress">Professor Dr.</namePart><namePart type="given">Wolfgang</namePart><namePart type="family">Kuschinsky</namePart><affiliation>Physiologisches Institut I, Universität Bonn, Nußallee II, D-5300, Bonn 1, Germany</affiliation><role><roleTerm type="text">editor</roleTerm></role></name><typeOfResource>text</typeOfResource><genre displayLabel="OriginalPaper" authority="ISTEX" authorityURI="https://content-type.data.istex.fr" type="research-article" valueURI="https://content-type.data.istex.fr/ark:/67375/XTP-1JC4F85T-7">research-article</genre><originInfo><publisher>Springer Berlin Heidelberg</publisher><place><placeTerm type="text">Berlin, Heidelberg</placeTerm></place><dateIssued encoding="w3cdtf">1987</dateIssued><copyrightDate encoding="w3cdtf">1987</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><abstract lang="en">Abstract: The normal human erythrocyte must be highly deformable in vivo to pass through peripheral capillaries with luminal diameters of 3–4 µm and through the interendothelial slits associated with the basement membrane fenestrations of the spleen. A significant aspect of red cell deformability is the tendency of the red cell membrane to rotate around its cytoplasmic contents when the cell is subjected to shearing action by the surrounding plasma [14]. 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