| index | Title |
| 1 | Digital design of scaffold for mandibular defect repair based on tissue engineering Author(s):Yun-feng Liu, Fu-dong Zhu, Xing-tao Dong, Wei Peng Clicked:9527 Download:4313 Cited:6 <Full Text> Journal of Zhejiang University Science B 2011 Vol.12 No.9 P.769-779 DOI:10.1631/jzus.B1000323 |
| 2 | Delivering MC3T3-E1 cells into injectable calcium phosphate cement through alginate-chitosan microcapsules for bone tissue engineering Author(s):Peng-yan Qiao, Fang-fang Li, Li-min Dong, Tao Xu, Qiu-fei Xie Clicked:13663 Download:5414 Cited:5 <Full Text> <PPT> 3203 Journal of Zhejiang University Science B 2014 Vol.15 No.4 P.382-392 DOI:10.1631/jzus.B1300132 |
| 3 | Repair of articular cartilage defects in rabbits through tissue-engineered cartilage constructed with chitosan hydrogel and chondrocytes Author(s):Ming Zhao, Zhu Chen, Kang Liu, Yu-qing Wan, Xu-dong Li, Xu-wei Luo, Yi-guang Bai, Ze-long Yang, Gang Feng Clicked:6650 Download:4468 Cited:3 <Full Text> <PPT> 3063 Journal of Zhejiang University Science B 2015 Vol.16 No.11 P.914-923 DOI:10.1631/jzus.B1500036 |
| 4 | Rapid prototyping technology and its application in bone tissue engineering Author(s):Bo Yuan, Sheng-yuan Zhou, Xiong-sheng Chen Clicked:5807 Download:4516 Cited:1 <Full Text> <PPT> 2441 Journal of Zhejiang University Science B 2017 Vol.18 No.4 P.303-315 DOI:10.1631/jzus.B1600118 |
| 5 | Tissue-engineered composite scaffold of poly(lactide-co-glycolide) and hydroxyapatite nanoparticles seeded with autologous mesenchymal stem cells for bone regeneration Author(s):Bing Zhang, Pei-biao Zhang, Zong-liang Wang, Zhong-wen Lyu, Han Wu Clicked:8560 Download:4301 Cited:0 <Full Text> <PPT> 2607 Journal of Zhejiang University Science B 2017 Vol.18 No.11 P.963-976 DOI:10.1631/jzus.B1600412 |
| 6 | Fabrication and characterization of 3D printed biocomposite scaffolds based on PCL and zirconia nanoparticles Author(s):Qifan Wang, Zhiyong Ma, Ying Wang, Linna Zhong, Wenjia Xie Clicked:3868 Download:3197 Cited:0 <Full Text> Bio-Design and Manufacturing 2021 Vol.4 No.1 P.60-71 DOI:10.1007/s42242-020-00095-3 |
| 7 | 3D printing of PEEK–cHAp scaffold for medical bone implant Author(s):Bankole I. Oladapo, S. Abolfazl Zahedi, Sikiru O. Ismail, Francis T. Omigbodun, Oluwole K. Bowoto, Mattew A. Olawumi, Musa A. Muhammad Clicked:4187 Download:4065 Cited:0 <Full Text> Bio-Design and Manufacturing 2021 Vol.4 No.1 P.44-59 DOI:10.1007/s42242-020-00098-0 |
| 8 | Biomaterials and additive manufacturing: osteochondral scaffold innovation applied to osteoarthritis (BAMOS project) Author(s):Mario Monzón Clicked:4207 Download:2968 Cited:0 <Full Text> Journal of Zhejiang University Science A 2018 Vol.19 No.4 P.329-330 DOI:10.1631/jzus.A18NW001 |
| 9 | Cartilage and facial muscle tissue engineering and regeneration: a mini review Author(s):Michael Del Monico,Mohammadreza Tahriri,Mina D.Fahmy,Hamed Ghassemi,Daryoosh Vashaee,Lobat Tayebi Clicked:3798 Download:2575 Cited:0 <Full Text> Bio-Design and Manufacturing 2018 Vol.1 No.2 P.115-122 DOI:10.1007/s42242-018-0011-4 |
| 10 | Three-dimensional printing of ?-Tricalcium phosphate/calcium silicate composite scaffolds for bone tissue engineering Author(s):Yifan Dong,Haibo Duan,Naru Zhao,Xiao Liu,Yijuan Ma,Xuetao Shi Clicked:4870 Download:3119 Cited:0 <Full Text> Bio-Design and Manufacturing 2018 Vol.1 No.2 P.146-156 DOI:10.1007/s42242-018-0010-5 |
| 11 | Current advances in solid free-form techniques for osteochondral tissue engineering Author(s):João Bebiano Costa, Joana Silva-Correia, Rui Luís Reis, Joaquim Miguel Oliveira Clicked:3485 Download:2336 Cited:0 <Full Text> Bio-Design and Manufacturing 2018 Vol.1 No.3 P.171-181 DOI:10.1007/s42242-018-0017-y |
| 12 | Origami meets electrospinning: a new strategy for 3D nanofiber scaffolds Author(s):Juqing Song, Guanglin Zhu, Huichang Gao, Lin Wang, Nanying Li, Xuetao Shi, Yingjun Wang Clicked:2795 Download:2374 Cited:0 <Full Text> Bio-Design and Manufacturing 2018 Vol.1 No.4 P.254-264 DOI:10.1007/s42242-018-0027-9 |
| 13 | 3D printing of calcium phosphate bioceramic with tailored biodegradation rate for skull bone tissue reconstruction Author(s):Boqing Zhang, Huan Sun, Lina Wu, Liang Ma, Fei Xing, Qingquan Kong, Yujiang Fan, Changchun Zhou, Xingdong Zhang Clicked:3750 Download:3064 Cited:0 <Full Text> Bio-Design and Manufacturing 2019 Vol.2 No.3 P.161-171 DOI:10.1007/s42242-019-00046-7 |
| 14 | In vivo study of conductive 3D printed PCL/MWCNTs scaffolds with electrical stimulation for bone tissue engineering Author(s):Edney P. e Silva, Boyang Huang, Júlia V. Helaehil, Paulo R. L. Nalesso, Leonardo Bagne, Maraiara A. de Oliveira, Gabriela C. C. Albiazetti, Ali Aldalbahi, Mohamed El-Newehy, Milton Santamaria-Jr, Fernanda A. S. Mendonça, Paulo Bártolo & Guilherme F. Caetano Clicked:4314 Download:3310 Cited:0 <Full Text> Bio-Design and Manufacturing 2021 Vol.4 No.2 P.190-202 DOI:10.1007/s42242-020-00116-1 |
| 15 | Experimental and numerical characterization of 3D-printed scaffolds under monotonic compression with the aid of micro-CT volume reconstruction Author(s):R. Baptista, M. F. C. Pereira, A. Maurício, D. Rechena, V. Infante & M. Guedes Clicked:4295 Download:3405 Cited:0 <Full Text> Bio-Design and Manufacturing 2021 Vol.4 No.2 P.222-242 DOI:10.1007/s42242-020-00122-3 |
