How getting twisted in scaffold design can promote bone regeneration: A fluid–structure interaction evaluation

ElsevierVolume 145, December 2022, 111359Journal of BiomechanicsAbstract

Bone tissue engineering (BTE) uses engineering principles to repair large bone defects, which requires effective mass transport ability of scaffolds to support cellular activities during bone regeneration. Since the implanted BTE scaffolds keep deforming under physiological loading which influences the fluid flow and mass transport within the scaffold and surrounding tissue, thus, scaffold design needs to consider the mass transport behavior under the physiological loading. This work proposed a novel twist scaffold, and its mass transport efficiency under physiological loading conditions was evaluated by a fluid–structure interaction analysis. The results showed that compared to the non-twist scaffold, the twist scaffold could form a rotating flow under the physiological loading, which enhanced the mass transport and generated more appropriate wall shear stress (WSS) to promote bone regeneration. This highlighted the better mass transport efficiency of the twist scaffold. Therefore, getting twist may be a promising design strategy for future BTE scaffolds, and the fluid–structure interaction approach may be a more reliable method for bone regeneration studies in either in vivo or in vitro systems.

Keywords

Twist scaffold

Cyclic loading

Mass transport

Diffusion

Wall shear stress

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