Add to ORKGExtracellular Vesicles (EVs) are considered promising nanoscale therapeutics for bone regeneration. To date, EVs are typically procured from cells on 2D tissue culture plastic, an artificial environment that limits cell growth and does not replicate in situ biochemical or biophysical conditions. This study investigated the potential of 3D printed titanium scaffolds coated with hydroxyapatite to promote the therapeutic efficacy of osteoblast-derived EVs. Ti6Al4V titanium scaffolds with different pore sizes (500 and 1000 µm) and shapes (square and triangle) were fabricated by selective laser melting. A bone-mimetic nano-needle hydroxyapatite (nnHA) coating was then applied. EVs were procured from scaffold-cultured osteoblasts over 2 weeks and...
In the treatment of osseous defects micro-structured three-dimensional materials for bone replacemen...
Titania nanotubes (TNT) generated on titanium implant are emerged as important modification techniqu...
In the treatment of osseous defects micro-structured three-dimensional materials for bone replacemen...
Extracellular Vesicles (EVs) are considered promising nanoscale therapeutics for bone regeneration. ...
Additive manufacturing by laser sintering is able to produce high resolution metal constructs for or...
Advanced biomaterials that are capable of guiding robust bone regeneration are highly demanded for t...
Advanced biomaterials that are capable of guiding robust bone regeneration are highly demanded for t...
Mechanobiological cues arising directly via tissue/scaffold mechanics or indirectly via mechanically...
In vitro cell-derived mineralized matrix deposition on scaffolds have been shown to induce in vitro ...
The drawbacks of traditional bone defect treatments have prompted the exploration of bone tissue eng...
Titanium (Ti) alloy implants can repair bone defects at load-bearing sites. However, they mechanical...
Mandibular bone defect reconstruction is an urgent challenge due to the requirements for daily eatin...
Porous Titanium-6Aluminum-4Vanadium scaffolds made by electron beam-based additive manufacturing (AM...
Abstract Porous Titanium-6Aluminum-4Vanadium scaffolds made by electron beam-based additive manufact...
The present work assesses the potential of three-dimensional porous titanium scaffolds produced by a...
In the treatment of osseous defects micro-structured three-dimensional materials for bone replacemen...
Titania nanotubes (TNT) generated on titanium implant are emerged as important modification techniqu...
In the treatment of osseous defects micro-structured three-dimensional materials for bone replacemen...
Extracellular Vesicles (EVs) are considered promising nanoscale therapeutics for bone regeneration. ...
Additive manufacturing by laser sintering is able to produce high resolution metal constructs for or...
Advanced biomaterials that are capable of guiding robust bone regeneration are highly demanded for t...
Advanced biomaterials that are capable of guiding robust bone regeneration are highly demanded for t...
Mechanobiological cues arising directly via tissue/scaffold mechanics or indirectly via mechanically...
In vitro cell-derived mineralized matrix deposition on scaffolds have been shown to induce in vitro ...
The drawbacks of traditional bone defect treatments have prompted the exploration of bone tissue eng...
Titanium (Ti) alloy implants can repair bone defects at load-bearing sites. However, they mechanical...
Mandibular bone defect reconstruction is an urgent challenge due to the requirements for daily eatin...
Porous Titanium-6Aluminum-4Vanadium scaffolds made by electron beam-based additive manufacturing (AM...
Abstract Porous Titanium-6Aluminum-4Vanadium scaffolds made by electron beam-based additive manufact...
The present work assesses the potential of three-dimensional porous titanium scaffolds produced by a...
In the treatment of osseous defects micro-structured three-dimensional materials for bone replacemen...
Titania nanotubes (TNT) generated on titanium implant are emerged as important modification techniqu...
In the treatment of osseous defects micro-structured three-dimensional materials for bone replacemen...