材料科学
脚手架
生物医学工程
生物相容性
松质骨
组织工程
股骨
骨组织
多孔性
复合材料
解剖
医学
外科
冶金
作者
Mohammad Javad Khoshgoftar,Hamidreza Ansari
标识
DOI:10.1002/adem.202301600
摘要
Bone tissue damage resulting from trauma, tumor, or bone infection is one of the most common problems that humans face in everyday life. Tissue engineering is a developing method for the reconstruction and repair of damaged tissues, and a scaffold should have properties such as biocompatibility, mechanical properties suitable for the type of damaged tissue, and suitable surface characteristics for better cell adhesion. This study presents a precise and practical process for designing a scaffold used in bone tissue repair, such as the femur, and the effect of unit cell geometry on the mechanical properties and surface characteristics of the scaffold is investigated. CT scan images of the human femur area were obtained, and 3D models of the cortical and cancellous parts of the femur were constructed. The outer surface of the damaged parts was designed with ideal geometry; six types of unit cells with different geometries were designed, and the changes in the Young’s modulus were determined as a function of changes in the unit cell porosity. The cubic‐star‐shaped unit cell was chosen as the suitable unit cell for the scaffold structure, with a side length of 0.88 mm and a pore size of 0.6 mm. This article is protected by copyright. All rights reserved.
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