[HTML][HTML] Multifunctional GelMA platforms with nanomaterials for advanced tissue therapeutics

AG Kurian, RK Singh, KD Patel, JH Lee, HW Kim - Bioactive materials, 2022 - Elsevier
Polymeric hydrogels are fascinating platforms as 3D scaffolds for tissue repair and delivery
systems of therapeutic molecules and cells. Among others, methacrylated gelatin (GelMA) …

[HTML][HTML] 3D printing of hydrogels: Rational design strategies and emerging biomedical applications

J Li, C Wu, PK Chu, M Gelinsky - Materials Science and Engineering: R …, 2020 - Elsevier
Abstract 3D printing alias additive manufacturing can transform 3D virtual models created by
computer-aided design (CAD) into physical 3D objects in a layer-by-layer manner …

[HTML][HTML] Biopolymer-based composites for tissue engineering applications: A basis for future opportunities

P Zarrintaj, F Seidi, MY Azarfam, MK Yazdi… - Composites Part B …, 2023 - Elsevier
Biomimetic scaffolds supporting tissue regeneration are complex materials with
multifunctional characteristics. The unique biocompatibility and biodegradability of …

[HTML][HTML] Pharmaceutical electrospinning and 3D printing scaffold design for bone regeneration

Z Wang, Y Wang, J Yan, K Zhang, F Lin, L Xiang… - Advanced drug delivery …, 2021 - Elsevier
Bone regenerative engineering provides a great platform for bone tissue regeneration
covering cells, growth factors and other dynamic forces for fabricating scaffolds. Diversified …

PLA/Hydroxyapatite scaffolds exhibit in vitro immunological inertness and promote robust osteogenic differentiation of human mesenchymal stem cells without …

MP Bernardo, BCR da Silva, AEI Hamouda… - Scientific reports, 2022 - nature.com
Bone defects stand out as one of the greatest challenges of reconstructive surgery. Fused
deposition modelling (FDM) allows for the printing of 3D scaffolds tailored to the morphology …

Hydroxyapatite for biomedical applications: A short overview

E Fiume, G Magnaterra, A Rahdar, E Verné, F Baino - Ceramics, 2021 - mdpi.com
Calcium phosphates (CaPs) are biocompatible and biodegradable materials showing a
great promise in bone regeneration as good alternative to the use of auto-and allografts to …

Personalized 3D printed bone scaffolds: A review

M Mirkhalaf, Y Men, R Wang, Y No, H Zreiqat - Acta Biomaterialia, 2023 - Elsevier
Abstract 3D printed bone scaffolds have the potential to replace autografts and allografts
because of advantages such as unlimited supply and the ability to tailor the scaffolds' …

Fabrication of scaffolds for bone-tissue regeneration

P Chocholata, V Kulda, V Babuska - Materials, 2019 - mdpi.com
The present article describes the state of the art in the rapidly developing field of bone tissue
engineering, where many disciplines, such as material science, mechanical engineering …

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] 3D bioactive composite scaffolds for bone tissue engineering

G Turnbull, J Clarke, F Picard, P Riches, L Jia, F Han… - Bioactive materials, 2018 - Elsevier
Bone is the second most commonly transplanted tissue worldwide, with over four million
operations using bone grafts or bone substitute materials annually to treat bone defects …