3D bioprinted biomimetic scaffolds for cartilage repair have been ...

Download scientific diagram | 3D bioprinted biomimetic scaffolds for cartilage repair have been shown to facilitate regeneration of articular cartilage in ...

a review of biomimetic and biologically active 3D printed scaffolds ...

Strategies for fabricating biomimetic 3D printed scaffolds for cartilage repair strive to maintain the synergistic biofunctionality of native biomaterials by ...

3D-bioprinted BMSC-laden biomimetic multiphasic scaffolds for ...

Therefore, this research demonstrates the potential of 3D-bioprinted BMSC-laden scaffolds to simultaneously inhibit joint inflammation and promote cartilage ...

a review of biomimetic and biologically active 3D printed scaffolds ...

Fortunately, the advent of 3D printing has provided a potential solution. 3D printed scaffolds, fabricated using biomimetic biomaterials, can be designed to ...

Biomaterial-based scaffolds in promotion of cartilage regeneration

developed a 3D-printed polycaprolactone (PCL) scaffold that was seeded with MSCs for the treatment of OA. Their results demonstrated that the ...

Recent advances in 3D bioprinted cartilage-mimicking constructs for ...

Furthermore, precise morphological bionics plays a crucial role in tissue repair, as depicted in Fig. 2. In particular, to repair articular cartilage defects, a ...

Fabrication of 3D Bioprinted Bi-Phasic Scaffold for Bone–Cartilage ...

Bioactive fillers have been used to enhance the bioactivity and bone regeneration of PCL. Hydroxyapatite (HA) is a calcium phosphate mineral ...

Biomimetic and mechanically supportive 3D printed scaffolds for ...

However, the mechanical properties were inferior to that of cartilage. While various 3D printing techniques have been developed and ...

advances in 3D-printed scaffolds for cartilage tissue engineering

Typically, TE scaffolds have a three-dimensional (3D) interconnected pore structure, which gradually degrades and is replaced by new tissues in ...

3D printed osteochondral scaffolds: design strategies, present ...

With the rapid development of three-dimensional (3D) printing technology, admirable progress has been made in bone and cartilage reconstruction, providing new ...

A review of biomimetic and biologically active 3D printed scaffolds ...

Fortunately, the advent of 3D printing has provided a potential solution. 3D printed scaffolds, fabricated using biomimetic biomaterials, can be ...

3D Bioprinted Scaffolds for Tissue Repair and Regeneration - Frontiers

In recent years, 3D bioprinting technology has been applied to manufacture functional tissue engineering scaffolds with its ability to assemble complicated ...

3D-printed biomimetic scaffolds with precisely controlled and ...

Transplantation of this 3D-printed bilayer scaffold exhibits a promising osteochondral repair effect in rabbits. Incorporation of Kartogenin ...

Hydrogel-Based 3D Bioprinting Technology for Articular Cartilage ...

At present, the 3D bioprinting technology has been widely used in cartilage repair or regeneration. Furthermore, more research is dedicated to the functional ...

3D bioprinting, surface modification, nano/micro-technology and ...

3D bioprinting among many technologies in tissue engineering has been applied to fabrications of scaffolds based on understanding of tissue ...

3D printing of cell-delivery scaffolds for tissue regeneration

As tissue engineering strategy has been more emphasized, the combination of 3D printed scaffold with cells has been deeply studied and facilitate functional ...

Full article: 3D bioprinted scaffolds of polysaccharide hydrogels in ...

In order to expand its clinical application in bone and cartilage tissue engineering, the 3D biological printing technology of hydrogel has attracted much ...

3D Printing of Microenvironment‐Specific Bioinspired and Exosome ...

Furthermore, the 3D-printed microenvironment-specific heterogeneous bilayer scaffolds efficiently accelerate the simultaneous regeneration of ...

Characterization of biological and mechanical properties of 3D ...

Three-dimensional (3D) bioprinting offers significant potential for the repair of articular cartilage by engineering functional osteochondral tissue.

3D bioprinting, surface modification, nano/micro-technol

scaffolds for bone and cartilage regeneration have been traditionally ... Biomimetic scaffolds have been reported having defined mechanical/ structural ...