• Title of article

    Human osteoblast-like cell adhesion on titanium substrates covalently functionalized with synthetic peptides

  • Author/Authors

    Andrea Bagno، نويسنده , , Alessandro Piovan، نويسنده , , Monica Dettin، نويسنده , , Alessia Chiarion، نويسنده , , Paola Brun، نويسنده , , Roberta Gambaretto، نويسنده , , Giovanni Fontana، نويسنده , , Carlo Di Bello، نويسنده , , Giorgio Palù، نويسنده , , Ignazio Castagliuolo، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    7
  • From page
    693
  • To page
    699
  • Abstract
    Biomaterials to be used for the production of endosseous devices in dental, orthopedic and maxillo-facial applications, might be designed to support, guide and enhance osteoblast adhesion. Cell recruitment onto biomaterial surface is a fundamental step within the complex process responsible for implant osseointegration; this process involves several proteins from the extra cellular matrix (ECM), cytoskeleton and cell membrane. A new strategy to improve endosseous implant integration is based on preparing biomimetic surfaces able to present adhesive factors to cells. Osteoblast adhesion takes place by at least two different mechanisms: the most investigated one implies the interaction with RGD sequences via cell-membrane integrin receptors; a further mechanism concerns the interaction between cell-membrane heparan sulfate proteoglycans and heparin-binding sites of ECM proteins. In the present study two different biomimetic surfaces were obtained by covalently grafting two adhesive peptides on oxidized titanium substrates after silanization: an RGD-containing peptide and a peptide mapped on human vitronectin. The two sequences are known to act via different adhesive mechanisms. The amount of human osteoblasts adhered onto peptide-enriched or not enriched titanium oxidized surfaces and the strength of cell binding were estimated, thus comparing the capacity of the bioactive substrates in promoting cell adhesion.
  • Keywords
    cell adhesion , Titanium , Osteoblast-like cells , Endosseous devices , adhesion strength
  • Journal title
    Bone
  • Serial Year
    2007
  • Journal title
    Bone
  • Record number

    496176