Synergistic effect of titanium alloy and collagen type I on cell adhesion, proliferation and differentiation of osteoblast-like cells

Research output: Contribution to journalResearch articleContributedpeer-review

Contributors

  • C Roehlecke - , Institute of Anatomy (First author)
  • M Witt - (Author)
  • M Kasper - (Author)
  • E Schulze - (Author)
  • C Wolf - (Author)
  • A Hofer - (Author)
  • Richard H.W. Funk - (Last author)

Abstract

A number of studies have demonstrated the pivotal role of collagen in modulating cell growth and differentiation. In bone, where the extracellular matrix is composed of approximately 85% type I collagen, cellular interaction with matrix components has been shown to be important in the regulation of the osteoblast phenotype. Preservation or enhancement of normal osteoblast function and appositional bone formation after implant placement represents a strategy that can be useful for the purpose of improving osseointegration. In order to further improve biocompatibility, we combined two known favorable compounds, namely the titanium alloy, Ti6A14V, with type I collagen. We assessed the in vitro behavior of primary osteoblasts grown on both fibrillar collagen-coated and tropocollagen-coated Ti6A14V in comparison with uncoated titanium alloy, using an improved adsorption procedure. As parameters of biocompatibility, a variety of processes, including cell attachment, spreading, cytoskeletal organization, focal contact formation, proliferation and expression of a differentiated phenotype, were investigated. Our results demonstrated for the first time that in comparison to uncoated titanium alloy, collagen-coated alloy enhanced spreading and resulted in a more rapid formation of focal adhesions and their associated stress fibers. Growing on collagen-coated Ti6A14V, osteoblasts had a higher proliferative capacity and the intracellular expression of osteopontin was upregulated compared to uncoated titanium alloy. Type I collagen-coated titanium alloy exhibits favorable effects on the initial adhesion and growth activities of osteoblasts, which is encouraging for its potential use as bone graft material. Moreover, collagen type I may serve as an excellent biocompatible carrier for osteotropic factors such as cell adhesion molecules (e.g. fibronectin) or bone-specific growth factors.

Details

Original languageEnglish
Pages (from-to)178-87
Number of pages10
Journal Cells tissues organs : in vivo, in vitro ; CTO
Volume168
Issue number3
Publication statusPublished - 2001
Peer-reviewedYes

External IDs

Scopus 0035104786

Keywords

Keywords

  • Alloys/pharmacology, Animals, Cell Adhesion/drug effects, Cell Culture Techniques/methods, Cell Differentiation/drug effects, Cell Division/drug effects, Cell Separation, Cells, Cultured, Collagen/pharmacology, Drug Synergism, Fetus, Osteoblasts/cytology, Osteopontin, Rats, Sialoglycoproteins/biosynthesis, Skull, Titanium/pharmacology