Promoting bone regeneration and repairing defects are urgent and critical challenges in
orthopedic clinical practice. Research on bone substitute biomaterials is essential for …

Nanofibre-based membranes or scaffolds exhibit high surface-to-volume ratio, which allows
an improved cell adhesion, representing an attractive subgroup of biomaterials due to their …

The treatment of infected bone defects includes infection control and repair of the bone
defect. The development of biomaterials with anti-infection and osteogenic ability provides a …

Biomimetic materials for hard and soft tissues have advanced in the fields of tissue
engineering and regenerative medicine in dentistry. To examine these recent advances, we …

Electrospinning is a versatile technology for the fabrication of nanofibrous matrixes to
regenerate defects. This study aims to develop a functionalized and electroconductive …

Polyurethane is an important synthetic polymer which considered promising for bone tissue
engineering. Besides, presence of conductive polymer such as could play a crucial role in …

Polyurethane (PU) has been widely examined and used for biomedical applications, such
as catheters, blood oxygenators, stents, cardiac valves, drug delivery carriers, dialysis …

The use of natural compounds such as biocompatible and non-toxic plant extracts, without
undesired side effects, in tissue engineering applications, is highly preferred compared to …

Since recent research indicates that the addition of graphene increases the mechanical and
biological properties of calcium phosphates simultaneously, graphene oxide (GO) was used …

Materials science is an interdisciplinary area of studies. This science focuses on the
influence of the physico-chemical properties of materials on their application in human …