This review focuses on recently developed alginate injectable hydrogels and alginate
composites for applications in bone tissue regeneration, and it evaluates the alternatives to …

Bone fractures are the most common traumatic injuries in humans. The repair of bone
fractures is a regenerative process that recapitulates many of the biological events of …

Bioactive materials developed through three-dimensional (3D) bioprinting technology
exhibit static nature and don't respond to the dynamic changes occurred in the human body …

3D printing has triggered the acceleration of numerous research areas in health sciences,
which traditionally used cells as starting materials, in particular tissue engineering …

As a milestone in soft and hard tissue engineering, a precise control over the micropatterns
of scaffolds has lightened new opportunities for the recapitulation of native body organs …

Reconstruction of bony defects is challenging when conventional grafting methods are used
because of their intrinsic limitations (biological cost and/or biological properties). Bone …

Despite the spontaneous regenerative properties of autologous bone grafts, this technique
remains dilatory and restricted to fractures and injuries. Conventional grafting strategies …

3D bioprinting has recently emerged as a very useful tool in tissue engineering and
regenerative medicine. However, developing suitable bioinks to fabricate specific tissue …

Bioprinting of body tissues has gained great attention in recent years due to its unique
advantages, including the creation of complex geometries and printing the patient-specific …

Tissue engineering with scaffolds provides novel prospects for bone/cartilage damage
healing. Previous studies mainly focus on the development of physical/chemical property of …