• Title of article

    Characterization of transient platelet contacts on a polyvinyl alcohol hydrogel by video microscopy

  • Author/Authors

    Matthew N. Godo، نويسنده , , Michael V. Sefton، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1999
  • Pages
    10
  • From page
    1117
  • To page
    1126
  • Abstract
    Acridine orange labelled, washed human platelets were counted and tracked on polyvinyl alcohol (PVA), heparin–PVA and polyethylene (PE)-coated coverslips with a view to understand why transient contact on the PVA hydrogels lead to elevated platelet activation and consumption relative to polyethylene. Over the 4 min of initial contact that was studied, platelet adhesion was higher on PE than on PVA or heparin–PVA at both 40 and 200 s-1, as expected, regardless of whether the surfaces were pre-treated with albumin or fibrinogen. Not all platelets appearing to make contact with the surface, actually attached. For example, less than 2% of the platelets contacting albumin pre-treated PVA (at 40 s-1) remained adherent at the end of the initial 60 s observation time, while the corresponding number for PE was greater than 9%. A greater fraction of the platelets remained adherent at the higher shear rate or with fibrinogen pre-treatment, but the difference between PVA and PE remained similar: for example, with fibrinogen pretreatment at 200 s-1, 25% of the platelet contacts resulted in adhesion on PVA while 66% did so on PE. While net platelet adhesion was less for the hydrogels, than for PE, the total number of contacts (adherents+non-adherents) were more comparable and unexpectedly higher for albumin pre-treatment than for fibrinogen. Net platelet adhesion is but one component of the total platelet interaction with a material surface. Fluorescent video microscopy has been shown to be a useful, albeit not unequivocal, method for assessing the platelets that make contact with but do not adhere to a surface.
  • Keywords
    Transient platelet contacts , video microscopy
  • Journal title
    Biomaterials
  • Serial Year
    1999
  • Journal title
    Biomaterials
  • Record number

    543273