• Title of article

    Covalent cross-links in polyampholytic chitosan fibers enhances bone regeneration in a rabbit model

  • Author/Authors

    Ghosh، نويسنده , , Paulomi and Rameshbabu، نويسنده , , Arun Prabhu and Das، نويسنده , , Dipankar and Francis، نويسنده , , Nimmy K. and Pawar، نويسنده , , Harpreet Singh and Subramanian، نويسنده , , Bhuvaneshwaran and Pal، نويسنده , , Sagar and Dhara، نويسنده , , Santanu، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2015
  • Pages
    10
  • From page
    160
  • To page
    169
  • Abstract
    Chitosan fibers were prepared in citric acid bath, pH 7.4 and NaOH solution at pH 13, to form ionotropically cross-linked and uncross-linked fibers, respectively. The fibers formed in citric acid bath were further cross-linked via carbodiimide chemistry; wherein the pendant carboxyl moieties of citric acid were used for new amide bond formation. Moreover, upon covalent cross-linking in the ionically gelled citrate–chitosan fibers, incomplete conversion of the ion pairs to amide linkages took place resulting in the formation of a dual network structure. The dual cross-linked fibers displayed improved mechanical property, higher stability against enzymatic degradation, hydrophobicity and superior bio-mineralization compared to the uncross-linked and native citrate cross-linked fibers. Additionally, upon cyclic loading, the ion pairs in the dual cross-linked fibers dissociated by dissipating energy and reformed during the relaxation period. The twin property of elasticity and energy dissipation mechanism makes the dual cross-linked fiber unique under dynamic mechanical conditions. The differences in the physico-chemical characteristics were reflected in protein adsorption, which in turn influenced the cellular activities on the fibers. Compared to the uncross-linked and ionotropically cross-linked fibers, the dual cross-linked fibers demonstrated higher proliferation and osteogenic differentiation of the MSCs in vitro as well as better osseous tissue regeneration in a rabbit model.
  • Keywords
    Dual cross-linking , Energy dissipation , Hydration effects , Interfacial phenomena , Bone marrow derived mesenchymal stem cells , osteogenesis
  • Journal title
    Colloids and Surfaces B Biointerfaces
  • Serial Year
    2015
  • Journal title
    Colloids and Surfaces B Biointerfaces
  • Record number

    1979338