Nanomaterials and bone regeneration  被引量：29

作　　者：Tao Gong Jing Xie Jinfeng Liao Tao Zhang Shiyu Lin Yunfeng Lin 

机构地区：[1]State Key Laboratory of Oral Diseases, West China Hospital of Stomatology, Sichuan University

出　　处：《Bone Research》2015年第3期123-129,共7页骨研究（英文版）

基　　金：funded by Funding of National Natural Science Foundation of China (81470721, 31170929, 81321002);Sichuan Science and Technology Innovation Team (2014TD0001)

摘　　要：The worldwide incidence of bone disorders and conditions has been increasing. Bone is a nanomaterials composed of organic （mainly collagen） and inorganic （mainly nano-hydroxyapatite） components, with a hierarchical structure ranging from nanoscale to macroscale. In consideration of the serious limitation in traditional therapies, nanomaterials provide some new strategy in bone regeneration. Nanostructured scaffolds provide a closer structural support approximation to native bone architecture for the cells and regulate cell proliferation, differentiation, and migration, which results in the formation of functional tissues. In this article, we focused on reviewing the classification and design of nanostructured materials and nanocarrier materials for bone regeneration, their cell interaction properties, and their application in bone tissue engineering and regeneration. Furthermore, some new challenges about the future research on the application of nanomaterials for bone regeneration are described in the conclusion and perspectives part.The worldwide incidence of bone disorders and conditions has been increasing. Bone is a nanomaterials composed of organic （mainly collagen） and inorganic （mainly nano-hydroxyapatite） components, with a hierarchical structure ranging from nanoscale to macroscale. In consideration of the serious limitation in traditional therapies, nanomaterials provide some new strategy in bone regeneration. Nanostructured scaffolds provide a closer structural support approximation to native bone architecture for the cells and regulate cell proliferation, differentiation, and migration, which results in the formation of functional tissues. In this article, we focused on reviewing the classification and design of nanostructured materials and nanocarrier materials for bone regeneration, their cell interaction properties, and their application in bone tissue engineering and regeneration. Furthermore, some new challenges about the future research on the application of nanomaterials for bone regeneration are described in the conclusion and perspectives part.

关 键 词：BONE ECM 

分 类 号：R687[医药卫生—骨科学] R318.08[医药卫生—外科学]