Scaffold degradation in bone tissue engineering: An overview

S Tajvar, A Hadjizadeh, SS Samandari - International Biodeterioration & …, 2023 - Elsevier
Successful bone tissue engineering strategies require 3D scaffolds with controllable
properties tailored to the intended clinical applications. The scaffold as a temporary …

Degradable biomedical elastomers: paving the future of tissue repair and regenerative medicine

B Jia, H Huang, Z Dong, X Ren, Y Lu… - Chemical Society …, 2024 - pubs.rsc.org
Degradable biomedical elastomers (DBE), characterized by controlled biodegradability,
excellent biocompatibility, tailored elasticity, and favorable network design and …

[HTML][HTML] 3D printing of PLA/n-HA composite scaffolds with customized mechanical properties and biological functions for bone tissue engineering

W Wang, B Zhang, M Li, J Li, C Zhang, Y Han… - Composites Part B …, 2021 - Elsevier
Bone defect caused by trauma, tumor, infection, and other reasons is a thorny problem that
needs to be solved in orthopedic clinic. Customized bone repair biomaterials and their …

Recent progress of rare earth doped hydroxyapatite nanoparticles: Luminescence properties, synthesis and biomedical applications

M Gu, W Li, L Jiang, X Li - Acta Biomaterialia, 2022 - Elsevier
Hydroxyapatite nanoparticles (HAP NPs) are host materials and can be modified with
various substrates and dopants. Among them, rare earth (RE) ions doped HAP NPs have …

Materials‐mediated in situ physical cues for bone regeneration

S Liu, L Zhang, Z Li, F Gao, Q Zhang… - Advanced Functional …, 2024 - Wiley Online Library
Physical cues like morphology, light, electric signal, mechanic signal, magnetic signal, and
heat can be used as alternative regulators for expensive but short‐acting growth factors in …

Photo-cross-linkable hyaluronic acid bioinks for bone and cartilage tissue engineering applications

F Ghorbani, B Ghalandari… - International …, 2023 - journals.sagepub.com
Hyaluronic acid (HA) is of immense importance to biomaterials science and biomedical
engineering. It is finding applications in diverse areas of bioengineering ranging from …

[HTML][HTML] Trabecular-like Ti–6Al–4V scaffold for bone repair: A diversified mechanical stimulation environment for bone regeneration

H Liang, L Chao, D Xie, Y Yang, J Shi, Y Zhang… - Composites Part B …, 2022 - Elsevier
A bionic scaffold with ideal osteoconductive and osteoinductive characteristics is in urgent
demand. The trabecular-like scaffold and corresponding regular scaffold with cubic cells …

[HTML][HTML] Additively-manufactured PEEK/HA porous scaffolds with excellent osteogenesis for bone tissue repairing

J Zheng, H Zhao, Z Ouyang, X Zhou, J Kang… - Composites Part B …, 2022 - Elsevier
Because of the good heat stability and similar mechanical properties to natural bone,
polyetheretherketone (PEEK) was widely used in preparation of prosthesis. While the …

[HTML][HTML] 3D printing of lithium osteogenic bioactive composite scaffold for enhanced bone regeneration

W Wang, J Wei, D Lei, S Wang, B Zhang… - Composites Part B …, 2023 - Elsevier
The repair of large bone defects is still a challenge in clinical orthopedics. The combination
of composite materials and 3D printing is expected to produce ideal bone defect scaffolds …

[HTML][HTML] Improving bone regeneration with composites consisting of piezoelectric poly (l-lactide) and piezoelectric calcium/manganese co-doped barium titanate …

T Zheng, Y Yu, Y Pang, D Zhang, Y Wang… - Composites Part B …, 2022 - Elsevier
The reconstruction of the local electrical microenvironment at the defect site has been
considered as an effective strategy in stimulating bone regeneration. To mimic the …