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Materials science and design principles of therapeutic materials in orthopedic and bone tissue engineering  ( SCI-EXPANDED收录 EI收录)   被引量:4

文献类型:期刊文献

英文题名:Materials science and design principles of therapeutic materials in orthopedic and bone tissue engineering

作者:Liang, Wenqing[1];Dong, Yongqiang[2];Shen, Hailiang[3];Shao, Ruyi[4];Wu, Xudong[1];Huang, Xiaogang[1];Sun, Bin[1];Zeng, Bin[1];Zhang, Songou[5];Xu, Fangming[1]

机构:[1]Zhejiang Chinese Med Univ, Dept Orthoped, Zhoushan Hosp Tradit Chinese Med, 355 Xinqiao Rd, Zhoushan 316000, Zhejiang, Peoples R China;[2]Xinchang Peoples Hosp, Dept Orthoped, Shaoxing, Peoples R China;[3]Shaoxing Univ, Dept Orthoped, Affiliated Hosp, Shaoxing, Peoples R China;[4]Zhuji Peoples Hosp, Dept Orthoped, Shaoxing, Peoples R China;[5]Shaoxing Univ, Coll Med, Shaoxing, Peoples R China

年份:2021

卷号:32

期号:12

起止页码:4573

外文期刊名:POLYMERS FOR ADVANCED TECHNOLOGIES

收录:SCI-EXPANDED(收录号:WOS:000700507000001)、、EI(收录号:20213910958149)、Scopus(收录号:2-s2.0-85115814217)、WOS

基金:This work was supported by Natural Science Foundation of Zhejiang Province (LY18H060013), Medical and Health Research Project of Zhejiang Province (2020KY995, 2021KY1160, 2021KY1172), Science and Technology Project of Shaoxing (2018C30165, 2018C30149).

语种:英文

外文关键词:biomaterial; bone tissue engineering; materials science; orthopedic tissue engineering

外文摘要:The successful materials design for bone-tissue engineering needs to understand the structure and composition of host bone tissue, and selecting appropriate biomimetic natural or tunable synthetic materials (biomaterials), such as polymers, bioceramics, metals, and composites. Materials that improve bone tissue engineering have tremendous potential for clinical applications to treat and regenerate various bone injuries and fractures. The drive to design bone grafts for bridging the gaps in orthopedic tissue regeneration results in a significant research thrust for designing and developing material for bone tissue regeneration. Recently, numerous challenges, including biomaterial designing, can well suit the biological, chemical and mechanical microenvironment of natural orthopedic tissues and adopt vascularization. Novel bio-inspired materials attempt to enhance the biofunctionality that reconstruct microlevel biofactor and topographical signals from the extracellular environment are rapidly developing. The most important paradigm shift in orthopedic tissue engineering is the careful selection of scaffold, signals, and cell types to design biomaterials. Notwithstanding, the clinical outcome of orthopedic tissue regeneration was so vibrant years ago; however, so far, it failed to achieve the expected results and failed to translate in the clinical setting. In the current review, we discuss the aims and mechanism of bone tissue regeneration, biomaterial designing, and orthopedic tissue engineering requirements. Next, we highlight the principle for orthopedic tissue engineering and describe the strategies for enhancing material Bio-functionality. Finally, we give the bench to bedside concept and concluding remarks with a special focus on future. The main purpose of current paper is to give a comprehensive overview, which is helpful for the researcher to distill this information and design future research strategies for designing materials for orthopedic and bone tissue engineering.

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