Bone tissue is dependent on an efficient blood supply to ensure delivery of nutrients and
oxygen. One method to acquire a vascular-engineered bone tissue could be the use of an …

Efficient vascularization within a scaffold is an essential criterion for evaluating the success
of volumetric bone formation. Various strategies using angiogenic growth factors and cell …

The repair of the damaged bone tissue caused by damage or bone disease was still a
problem. Current strategies including the use of autografts and allografts have the …

The treatment of bone defects in an ischemic environment is a huge challenge. Improving
angiogenesis, which is regulated by angiogenic growth factors such as vascular endothelial …

A major limitation with current tissue‐engineering approaches is creating functionally
vascularized constructs that can successfully integrate with the host; this often leads to …

We aimed to evaluate the integration of stem cells with injectable microspheres loaded with
growth factors using a chitosan (CS) scaffold to promote healthy bone regeneration. We …

Vascular endothelial growth factor (VEGF) is one of the most crucial growth factors and an
assistant for the adjustment of bone regeneration. In this study, a 3D scaffold is fabricated …

In this work, we presented a new materials composed of hollow chitosan and hydroxyapatite
(CS/HA) fibers were bio-fabricated by combining a coaxial extrusion with a water bath …

In this study, we prepared a biomimetic hyaluronic acid oligosaccharides (oHAs)-based
composite scaffold to develop a bone tissue-engineered scaffold for stimulating …

Abstract Background/Objective: Tissue engineering involves scaffolds, cells and growth
factors, among which growth factors have limited applications due to potential safety risks …