Effect of microporosity on scaffolds for bone tissue engineering
Microporosity has a critical role in improving the osteogenesis of scaffolds for bone tissue
engineering. Although the exact mechanism, by which it promotes new bone formation, is …
engineering. Although the exact mechanism, by which it promotes new bone formation, is …
Materials roles for promoting angiogenesis in tissue regeneration
Enabling angiogenesis is critical for the success of tissue repair therapies and the fate of
tissue-engineered constructs. Although many biochemical signaling molecules have been …
tissue-engineered constructs. Although many biochemical signaling molecules have been …
A review of bioceramic porous scaffolds for hard tissue applications: Effects of structural features
Tissue engineering has acquired remarkable attention as an alternative strategy to treat and
restore bone defects during recent years. A scaffold is a fundamental component for tissue …
restore bone defects during recent years. A scaffold is a fundamental component for tissue …
Bone regeneration with hydroxyapatite-based biomaterials
Z Bal, T Kaito, F Korkusuz, H Yoshikawa - Emergent Materials, 2020 - Springer
Degeneration, trauma, and tumor resection are the main causes of bone loss (Owen et al., J.
Biomed. Mater. Res. B Appl. Biomater. 106 (6), 2493-2512 (2018), Korkusuz et al.,(2014) …
Biomed. Mater. Res. B Appl. Biomater. 106 (6), 2493-2512 (2018), Korkusuz et al.,(2014) …
Dual functional approaches for osteogenesis coupled angiogenesis in bone tissue engineering
Bone fracture healing is a multistep and overlapping process of inflammation, angiogenesis
and osteogenesis. It is initiated by inflammation, causing the release of various cytokines …
and osteogenesis. It is initiated by inflammation, causing the release of various cytokines …
[HTML][HTML] Injectable bone cement with magnesium-containing microspheres enhances osteogenesis via anti-inflammatory immunoregulation
S Tan, Y Wang, Y Du, Y Xiao, S Zhang - Bioactive materials, 2021 - Elsevier
Injectable bone cement is especially useful in minimally invasive surgeries to repair small
and irregular bone defects. Amongst different kinds of injectable bone cements, bioactive …
and irregular bone defects. Amongst different kinds of injectable bone cements, bioactive …
Creating hierarchical porosity hydroxyapatite scaffolds with osteoinduction by three-dimensional printing and microwave sintering
Hierarchical porosity, which includes micropores and macropores in scaffolds, contributes to
important multiple biological functions for tissue regeneration. This paper introduces a two …
important multiple biological functions for tissue regeneration. This paper introduces a two …
[HTML][HTML] In vivo bone regeneration assessment of offset and gradient melt electrowritten (MEW) PCL scaffolds
Background Biomaterial-based bone tissue engineering represents a promising solution to
overcome reduced residual bone volume. It has been previously demonstrated that gradient …
overcome reduced residual bone volume. It has been previously demonstrated that gradient …
[HTML][HTML] Hydroxyapatite 3D-printed scaffolds with Gyroid-Triply periodic minimal surface porous structure: Fabrication and an in vivo pilot study in sheep
Bone repair is a major challenge in regenerative medicine, eg for large defects. There is a
need for bioactive, highly percolating bone substitutes favoring bone ingrowth and tissue …
need for bioactive, highly percolating bone substitutes favoring bone ingrowth and tissue …
[HTML][HTML] Optimized fabrication of DLP-based 3D printing calcium phosphate ceramics with high-precision and low-defect to induce calvarial defect regeneration
Y Wu, Q Cao, Y Wang, Y Liu, X Xu, P Liu, X Li, X Zhu… - Materials & Design, 2023 - Elsevier
Acquiring high-performance calcium phosphate (CaP) ceramics via 3D printing is critical for
their applications in bone regenerative repair. In current study, a complete process study of …
their applications in bone regenerative repair. In current study, a complete process study of …