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
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