Recent studies have shown that mechanical stimulation, in the form of fluid perfusion and mechanical compression, can enhance osteogenic differentiation of mesenchymal stem cells and bone cells within tissue engineering scaffolds in vitro. The precise nature of mechanical stimulation within tissue engineering scaffolds is not only dictated by the exogenously applied loading regime, but also depends on the geometric features of the scaffold, in particular architecture, pore size and porosity. However, the precise contribution of each geometric feature towards the resulting mechanical stimulation within a scaffold is difficult to characterise due to the wide range of interacting parameters. In this study, we have applied a fluid–structure int...
Scaffolds for regenerative medicine applications should instruct cells with the appropriate signals,...
Contains fulltext : 170564.pdf (publisher's version ) (Open Access)Scaffolds for r...
An analytical model of the fluid/cell mechanical interaction was developed. The interfacial shear st...
Recent studies have shown that mechanical stimulation, in the form of fluid perfusion and mechanical...
Recent studies have shown that mechanical stimulation, by means of flow perfusion and mechanical com...
Recent studies have shown that mechanical stimulation, by means of flow perfusion and mechanical com...
Recent studies have shown that mechanical stimulation, by means of flow perfusion and mechanical com...
Mechanical stimulation in terms of fluid flow and mechanical strain can enhance the osteogenesis. Bi...
Introduction: Although bone tissue engineering and regenerative medicine are promising strategies fo...
Mechanical stimulation in terms of fluid flow and mechanical strain can enhance the osteogenesis. Bi...
Scaffolds for regenerative medicine applications should instruct cells with the appropriate signals,...
Scaffolds for regenerative medicine applications should instruct cells with the appropriate signals,...
Scaffolds for regenerative medicine applications should instruct cells with the appropriate signals,...
Tissue engineering scaffolds provide temporary mechanical support for tissue regeneration and trans...
Tissue engineering scaffolds provide temporary mechanical support for tissue regeneration and trans...
Scaffolds for regenerative medicine applications should instruct cells with the appropriate signals,...
Contains fulltext : 170564.pdf (publisher's version ) (Open Access)Scaffolds for r...
An analytical model of the fluid/cell mechanical interaction was developed. The interfacial shear st...
Recent studies have shown that mechanical stimulation, in the form of fluid perfusion and mechanical...
Recent studies have shown that mechanical stimulation, by means of flow perfusion and mechanical com...
Recent studies have shown that mechanical stimulation, by means of flow perfusion and mechanical com...
Recent studies have shown that mechanical stimulation, by means of flow perfusion and mechanical com...
Mechanical stimulation in terms of fluid flow and mechanical strain can enhance the osteogenesis. Bi...
Introduction: Although bone tissue engineering and regenerative medicine are promising strategies fo...
Mechanical stimulation in terms of fluid flow and mechanical strain can enhance the osteogenesis. Bi...
Scaffolds for regenerative medicine applications should instruct cells with the appropriate signals,...
Scaffolds for regenerative medicine applications should instruct cells with the appropriate signals,...
Scaffolds for regenerative medicine applications should instruct cells with the appropriate signals,...
Tissue engineering scaffolds provide temporary mechanical support for tissue regeneration and trans...
Tissue engineering scaffolds provide temporary mechanical support for tissue regeneration and trans...
Scaffolds for regenerative medicine applications should instruct cells with the appropriate signals,...
Contains fulltext : 170564.pdf (publisher's version ) (Open Access)Scaffolds for r...
An analytical model of the fluid/cell mechanical interaction was developed. The interfacial shear st...