Cell adhesion and initial bone matrix deposition on titanium-based implants with chitosan–collagen coatings: An in vitro study
F Veronesi, S Brogini, A De Luca, D Bellini… - International Journal of …, 2023 - mdpi.com
In orthopedics, titanium (Ti)-alloy implants, are often considered as the first-choice
candidates for bone tissue engineering. An appropriate implant coating enhances bone …
candidates for bone tissue engineering. An appropriate implant coating enhances bone …
3D-printed titanium implant-coated polydopamine for repairing femoral condyle defects in rabbits
W Zhong, J Li, C Hu, Z Quan, D Jiang, G Huang… - Journal of Orthopaedic …, 2020 - Springer
Background Large segmental bone defects are still one of the challenges for orthopaedic
surgeons. Although 3D-printed porous titanium is a potential bone substitute material …
surgeons. Although 3D-printed porous titanium is a potential bone substitute material …
[HTML][HTML] Surface film characterizations and electrochemical behavior of type I collagen-immobilized interconnected porous Ti–Nb–Zr–Sn alloy scaffolds in simulated …
JY Wen, HH Huang - Journal of Materials Research and Technology, 2022 - Elsevier
Inflammation in the tissue surrounding titanium (Ti)-based alloy implants can lead to
increased acidity and the release of reactive oxygen species (eg, H 2 O 2), which can …
increased acidity and the release of reactive oxygen species (eg, H 2 O 2), which can …
Three-dimensional printing of CaTiO3 incorporated porous β-Ca2SiO4 composite scaffolds for bone regeneration
Z Kang, B Yu, S Fu, D Li, X Zhang, Z Qian, Z Zhong… - Applied Materials …, 2019 - Elsevier
Abstract Three-dimensional (3D) printed bioceramics derived from silicone are of great
interest in bone tissue engineering owing to their simple processes and low cost. In this …
interest in bone tissue engineering owing to their simple processes and low cost. In this …
A surface metal ion-modified 3D-printed Ti-6Al-4V implant with direct and immunoregulatory antibacterial and osteogenic activity
Y Wu, X Shi, J Wang, Y Li, J Wu, D Jia, Y Bai… - … in Bioengineering and …, 2023 - frontiersin.org
The high concentration of antibacterial metal ions may exhibit unavoidable toxicity to cells
and normal tissues. The application of antibacterial metal ions to activate the immune …
and normal tissues. The application of antibacterial metal ions to activate the immune …
Cold plasma treatment of porous scaffolds: Design principles
Three‐dimensional porous scaffolds have the potential to revolutionize a number of fields,
including stem cell research, biomedical implants, tissue engineering, and regeneration, as …
including stem cell research, biomedical implants, tissue engineering, and regeneration, as …
[HTML][HTML] Three-dimensional printed titanium scaffolds enhance osteogenic differentiation and new bone formation by cultured adipose tissue-derived stem cells …
X Zhou, D Zhang, M Wang, D Zhang… - Medical science monitor …, 2019 - ncbi.nlm.nih.gov
Background This study aimed to investigate the effects of three-dimensional (3D) printed
titanium (3DTi) scaffolds on osteogenic differentiation and new bone formation by 3D …
titanium (3DTi) scaffolds on osteogenic differentiation and new bone formation by 3D …
Fabrication of chitosan-based biomaterials: Techniques and designs
In recent decades, chitosan is emerging as a promising functional biopolymer for the
fabrication of biomaterials in various forms due to having immense structural possibilities for …
fabrication of biomaterials in various forms due to having immense structural possibilities for …
Enhanced proliferation and differentiation of human mesenchymal stem cell-laden recycled fish gelatin/strontium substitution calcium silicate 3D scaffolds
Cell-encapsulated bioscaffold is a promising and novel method to allow fabrication of live
functional organs for tissue engineering and regenerative medicine. However, traditional …
functional organs for tissue engineering and regenerative medicine. However, traditional …
[HTML][HTML] 3D Printing and Surface Engineering of Ti6Al4V Scaffolds for Enhanced Osseointegration in an In Vitro Study
Ti6Al4V superalloy is recognized as a good candidate for bone implants owing to its
biocompatibility, corrosion resistance, and high strength-to-weight ratio. While dense metal …
biocompatibility, corrosion resistance, and high strength-to-weight ratio. While dense metal …