Polyhedron‐like biomaterials for innervated and vascularized bone regeneration
H Zhang, M Zhang, D Zhai, C Qin, Y Wang… - Advanced …, 2023 - Wiley Online Library
Neural‐vascular networks are densely distributed through periosteum, cortical bone, and
cancellous bone, which is of great significance for bone regeneration and remodeling …
cancellous bone, which is of great significance for bone regeneration and remodeling …
Bio-electric-electronics and tissue engineering applications of MXenes wearable materials: A review
In the realm of bioelectronics, MXenes exhibit remarkable conductivity and compatibility with
biological systems, making them pivotal in the development of neural interfaces and …
biological systems, making them pivotal in the development of neural interfaces and …
[HTML][HTML] Advancements in Bone Replacement Techniques–Potential Uses After Maxillary and Mandibular Resections Due to Medication-Related Osteonecrosis of the …
J Bovari-Biri, JA Miskei, Z Kover… - Cells, 2025 - mdpi.com
Maxillofacial bone defects can have a profound impact on both facial function and
aesthetics. While various biomaterial scaffolds have shown promise in addressing these …
aesthetics. While various biomaterial scaffolds have shown promise in addressing these …
Biaxial stretching of polytetrafluoroethylene in industrial scale to fabricate medical ePTFE membrane with node-fibril microstructure
G Wang, Y Feng, C Gao, X Zhang… - Regenerative …, 2023 - academic.oup.com
Expanded polytetrafluoroethylene (ePTFE) is promising in biomedical fields such as
covered stents and plastic surgery owing to its excellent biocompatibility and mechanical …
covered stents and plastic surgery owing to its excellent biocompatibility and mechanical …
Customized bioceramic scaffolds and metal meshes for challenging large-size mandibular bone defect regeneration and repair
B Zhang, X Yin, F Zhang, Y Hong, Y Qiu… - Regenerative …, 2023 - academic.oup.com
Large-size mandible graft has huge needs in clinic caused by infection, tumor, congenital
deformity, bone trauma and so on. However, the reconstruction of large-size mandible defect …
deformity, bone trauma and so on. However, the reconstruction of large-size mandible defect …
Development of cell-laden photopolymerized constructs with bioactive amorphous calcium magnesium phosphate for bone tissue regeneration via 3D bioprinting
JY Kim, SB Kumar, CH Park, CS Kim - International Journal of Biological …, 2024 - Elsevier
The synthesis of ideal bioceramics to guide the fate of cells and subsequent bone
regeneration within the chemical, biological, and physical microenvironment is a …
regeneration within the chemical, biological, and physical microenvironment is a …
Improving mechanical strength and osteo-stimulative capacity of 3D-printed magnesium phosphate ceramic scaffolds by magnesium silicate additives
T Chen, W Shuai, W Fu, Y Li, R Wen, Q Fu, F He… - Ceramics …, 2024 - Elsevier
Magnesium phosphate ceramics are short of osteostimulation capacity to effectively repair
the bone defects. Herein, magnesium silicate (MgSi) was utilized as an additive to modify …
the bone defects. Herein, magnesium silicate (MgSi) was utilized as an additive to modify …