Machine learning‐driven biomaterials evolution
Biomaterials is an exciting and dynamic field, which uses a collection of diverse materials to
achieve desired biological responses. While there is constant evolution and innovation in …
achieve desired biological responses. While there is constant evolution and innovation in …
[HTML][HTML] A review of 3D printed bone implants
Z Li, Q Wang, G Liu - Micromachines, 2022 - mdpi.com
3D printing, that is, additive manufacturing, has solved many major problems in general
manufacturing, such as three-dimensional tissue structure, microenvironment control …
manufacturing, such as three-dimensional tissue structure, microenvironment control …
Influence of the pore size and porosity of selective laser melted Ti6Al4V ELI porous scaffold on cell proliferation, osteogenesis and bone ingrowth
This paper systematically investigates the biomedical performance of selective laser melted
(SLM) porous Ti6Al4V ELI scaffolds for bone implantation through in vitro and in vivo …
(SLM) porous Ti6Al4V ELI scaffolds for bone implantation through in vitro and in vivo …
[HTML][HTML] Synthetic materials in craniofacial regenerative medicine: A comprehensive overview
The state-of-the-art approach to regenerating different tissues and organs is tissue
engineering which includes the three parts of stem cells (SCs), scaffolds, and growth factors …
engineering which includes the three parts of stem cells (SCs), scaffolds, and growth factors …
Key components of engineering vascularized 3-dimensional bioprinted bone constructs
Vascularization has a pivotal role in engineering successful tissue constructs. However, it
remains a major hurdle of bone tissue engineering, especially in clinical applications for the …
remains a major hurdle of bone tissue engineering, especially in clinical applications for the …
Novel porous Ti35Zr28Nb scaffolds fabricated by powder metallurgy with excellent osteointegration ability for bone-tissue engineering applications
Titanium (Ti) based porous alloys have been widely used as orthopedic implants. However,
the successful applications of these porous Ti alloys need to have the ability to mimic the …
the successful applications of these porous Ti alloys need to have the ability to mimic the …
Recent advances in additive manufacturing technology for bone tissue engineering scaffolds
X Zhou, Y Feng, J Zhang, Y Shi, L Wang - The International Journal of …, 2020 - Springer
Appropriate scaffolds for tissue-engineered bone not only require mechanical strength, but
also conditions that promote new bone growth. Bone tissue engineering scaffolds should …
also conditions that promote new bone growth. Bone tissue engineering scaffolds should …
[HTML][HTML] Forged to heal: The role of metallic cellular solids in bone tissue engineering
E Marin - Materials Today Bio, 2023 - Elsevier
Metallic cellular solids, made of biocompatible alloys like titanium, stainless steel, or cobalt-
chromium, have gained attention for their mechanical strength, reliability, and …
chromium, have gained attention for their mechanical strength, reliability, and …
Role and challenges of bioprinting in bone tissue engineering
Bone grafting is a type of surgery for reconstructing damaged and defective bones by
medical professionals. But the surgery is very complex and challenging as it needs precise …
medical professionals. But the surgery is very complex and challenging as it needs precise …
A systematic review of preclinical in vivo testing of 3D printed porous Ti6Al4V for orthopedic applications, part I: Animal models and bone ingrowth outcome measures
H Spece, C Basgul, CE Andrews… - … Research Part B …, 2021 - Wiley Online Library
Abstract For Ti6Al4V orthopedic and spinal implants, osseointegration is often achieved
using complex porous geometries created via additive manufacturing (AM). While AM …
using complex porous geometries created via additive manufacturing (AM). While AM …