Impact of a staggered scaffold structure on the mechanical properties and cell response in bone tissue engineering
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https://hdl.handle.net/10037/30823Dato
2023-06-20Type
Journal articleTidsskriftartikkel
Peer reviewed
Sammendrag
The primary goal of bone tissue engineering is to fabricate scaffolds that can provide a microenvironment similar to
that of natural bone. Therefore, various scaffolds have been designed to replicate the bone structure. Although most
tissues exhibit complicated structures, their basic structural unit includes stiff platelets arranged in a staggered microarray. Therefore, many researchers have designed scaffolds with staggered patterns. However, relatively few studies
have comprehensively analyzed this type of scaffold. In this review, we have analyzed scientific research pertaining to
staggered scaffold designs and summarized their effects on the physical and biological properties of scaffolds. Compression
tests or finite element analysis are typically used to evaluate the mechanical properties of scaffolds, and most studies
have performed experiments in cell cultures. Staggered scaffolds improve mechanical strength and are beneficial for
cell attachment, proliferation, and differentiation in comparison with conventional designs. However, very few have
been studied in vivo experiments. Additionally, studies on the effect of staggered structures on angiogenesis or bone
regeneration in vivo, particularly in large animals, are required. Currently, with the prevalence of artificial intelligence
(AI)-based technologies, highly optimized models can be developed, resulting in better discoveries. In the future, AI can
be used to deepen our understanding on the staggered structure, promoting its use in clinical applications.
Forlag
SAGESitering
He, Zhao, Zhang, Wang, Si, Xue, Xing. Impact of a staggered scaffold structure on the mechanical properties and cell response in bone tissue engineering. Journal of Applied Biomaterials & Functional Materials (JABFM). 2023;21Metadata
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