Functionalized TiCu/Ti‐Cu‐N‐coated 3D‐printed porous Ti6Al4V scaffold promotes bone regeneration through BMSC recruitment
Y Guo, L Ren, K Xie, L Wang, B Yu… - Advanced Materials …, 2020 - Wiley Online Library
Ti6Al4V scaffolds have high strength and corrosion resistance. 3D printing technology can
optimize the pore structure of Ti6Al4V scaffolds, promoting bone tissue growth into the …
optimize the pore structure of Ti6Al4V scaffolds, promoting bone tissue growth into the …
[PDF][PDF] Functionalized TiCu/Ti-Cu-N-Coated 3D-Printed Porous Ti6Al4V Scaffold Promotes Bone Regeneration through BMSC Recruitment
Y Guo, L Ren, K Xie, L Wang, B Yu, W Jiang, Y Zhao… - Adv. Mater, 2020 - researchgate.net
Current orthopedic treatments for bone defects include autologous bone grafts, allogeneic
bone grafts, and artificial bone substitutes. These methods replace the defective bone tissue …
bone grafts, and artificial bone substitutes. These methods replace the defective bone tissue …