Additive manufacturing of metallic lattice structures: Unconstrained design, accurate fabrication, fascinated performances, and challenges

LY Chen, SX Liang, Y Liu, LC Zhang - Materials Science and Engineering …, 2021 - Elsevier
Lattice structures, which are also known as architected cellular structures, have been
applied in various industrial sectors, owing to their fascinated performances, such as low …

Design, printing, and engineering of regenerative biomaterials for personalized bone healthcare

Z Jia, X Xu, D Zhu, Y Zheng - Progress in Materials Science, 2023 - Elsevier
Trauma-and disease-related skeletal defects and illnesses are plaguing millions of people
especially in an ageing globe. Recently, the convergence of additive manufacturing (AM) …

Materials design for bone-tissue engineering

GL Koons, M Diba, AG Mikos - Nature Reviews Materials, 2020 - nature.com
Successful materials design for bone-tissue engineering requires an understanding of the
composition and structure of native bone tissue, as well as appropriate selection of …

[HTML][HTML] Poly (lactic-co-glycolic acid)-based composite bone-substitute materials

D Zhao, T Zhu, J Li, L Cui, Z Zhang, X Zhuang, J Ding - Bioactive materials, 2021 - Elsevier
Research and development of the ideal artificial bone-substitute materials to replace
autologous and allogeneic bones for repairing bone defects is still a challenge in clinical …

[HTML][HTML] Accelerated degradation of HAP/PLLA bone scaffold by PGA blending facilitates bioactivity and osteoconductivity

C Shuai, W Yang, P Feng, S Peng, H Pan - Bioactive Materials, 2021 - Elsevier
The incorporation of hydroxyapatite (HAP) into poly-l-lactic acid (PLLA) matrix serving as
bone scaffold is expected to exhibit bioactivity and osteoconductivity to those of the living …

[HTML][HTML] Magnesium-based biomaterials as emerging agents for bone repair and regeneration: From mechanism to application

H Zhou, B Liang, H Jiang, Z Deng, K Yu - Journal of Magnesium and Alloys, 2021 - Elsevier
Magnesium (Mg) is the fourth most abundant element in the human body and is important in
terms of specific osteogenesis functions. Here, we provide a comprehensive review of the …

Biodegradable magnesium‐based implants in orthopedics—a general review and perspectives

JL Wang, JK Xu, C Hopkins, DHK Chow… - Advanced …, 2020 - Wiley Online Library
Biodegradable Mg‐based metals may be promising orthopedic implants for treating
challenging bone diseases, attributed to their desirable mechanical and osteopromotive …

Recent advances in PLGA-based biomaterials for bone tissue regeneration

S Jin, X Xia, J Huang, C Yuan, Y Zuo, Y Li, J Li - Acta biomaterialia, 2021 - Elsevier
Bone regeneration is an interdisciplinary complex lesson, including but not limited to
materials science, biomechanics, immunology, and biology. Having witnessed impressive …

Additive manufacturing of porous magnesium alloys for biodegradable orthopedic implants: Process, design, and modification

B Peng, H Xu, F Song, P Wen, Y Tian… - Journal of Materials …, 2024 - Elsevier
Biodegradable magnesium (Mg) alloys exhibit excellent biocompatibility, adequate
mechanical properties, and osteogenic effect. They can contribute to complete recovery of …

[HTML][HTML] Recent progress in Mg-based alloys as a novel bioabsorbable biomaterials for orthopedic applications

F Xing, S Li, D Yin, J Xie, PM Rommens, Z Xiang… - Journal of Magnesium …, 2022 - Elsevier
Traditional orthopedic metal implants, such as titanium (Ti), Ti alloys, and cobalt-chromium
(Co-Cr) alloys, cannot be degraded in vivo. Fracture patients is must always suffer a second …