A novel method to design biomimetic, 3D printable stochastic scaffolds with controlled porosity for bone tissue engineering

材料科学 多孔性 脚手架 各向异性 生物医学工程 组织工程 应力屏蔽 电磁屏蔽 复合材料 工程类 植入 外科 物理 医学 量子力学
作者
Susheem Kanwar,Oraib Al‐Ketan,Sanjairaj Vijayavenkataraman
出处
期刊:Materials & Design [Elsevier BV]
卷期号:220: 110857-110857 被引量:39
标识
DOI:10.1016/j.matdes.2022.110857
摘要

Periodic cellular materials such as body-centered cubic, face-centered cubic, and triply periodic minimal surfaces, have been used to construct scaffolds for bone tissue engineering. Their use is suboptimal for reasons like stress concentration at nodes, and/or poor anisotropy. Stochastic structures can mimic the bone microarchitecture with anisotropic mechanical properties. While several methods exist for generating stochastic structures, they face limitations like being computationally expensive, complex, or only applicable in specific cases. In this work, scaffolds are created using level set equations which permit spatially controllable porosity. A 3D volume is populated with random nodes, which segment the 3D volume into subdomains. Each subdomain is occupied with a basic architecture generated through level-set equations. All the architectures in the subdomains are then smoothly integrated at sub-domain boundaries to form the stochastic scaffold. Stainless steel stochastic scaffolds with porosities from 58% to 70% were fabricated and their mechanical characteristics, as well as cell viability, was assessed. Young’s modulus of the scaffolds ranges from 0.02 to 2 GPa, in the same range as that of trabecular bone, thus, mitigating stress shielding. In-vitro assay displayed a statistically significant osteoblast growth from Day 1 to Day 3 in 58%, 61%, and 64% porosity scaffolds.

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