POROSITY AND SURFACE CURVATURE EFFECTS ON THE PERMEABILITY AND WALL SHEAR STRESS OF TRABECULAR BONE: GUIDELINES FOR BIOMIMETIC SCAFFOLDS FOR BONE REPAIR
Résumé
Scaffolds are an essential component of bone tissue engineering to provide support and create a physiological environment for cells. Biomimetic scaffolds are a promising approach to fulfill the requirements. Bone allografts are widely used scaffolds due to their mechanical and structural characteristics. The scaffold geometry is well known to be an important determinant of induced mechanical stimulation felt by the cells. However, the impact of allograft geometry on permeability and wall shear stress distribution is not well understood. This information is essential for designing biomimetic scaffolds that provide a suitable environment for cells to proliferate and differentiate. The present study investigates the effect of geometry on the permeability and wall shear stress of bone allografts at both macroscopic and microscopic scales. Our results concluded that the wall shear stress was strongly correlated with the porosity of the allograft. The level of wall shear stress at a local scale was also determined by the surface curvature characteristics. The results of this study can serve as a guideline for future biomimetic scaffold designs that provide a mechanical environment favorable for osteogenesis and bone repair.
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Article Gabi Zhuang Mai 24 pour dépôt sur HAL version finale 5 juin 2024.pdf (807.64 Ko)
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