Fracture healing is a complex physiological process. With the latest advances made in
molecular biology and genetics it is now known that it involves the spatial and temporal …

Bacterial cellulose (BC) is a unique and promising material for use as implants and scaffolds
in tissue engineering. It is composed of a pure cellulose nanofiber mesh spun by bacteria. It …

Fracture healing constitutes a complex and delicate physiological process. Local vascularity
at the site of the fracture has been identified as one of the most significant parameters …

The rapid progress in science and technology has resulted in substantial growth in the
nanotextiles market and holds promising potential for the future. There is important research …

In the Trauma and Orthopaedic discipline, tissue engineering attempts to convert scientific
knowledge into new products and methods of treatment in order to advance the repair …

First-principles modeling combined with experimental methods were used to study
hydroxyapatite in which Sr2+ is substituted for Ca2+. Detailed analyses of cation–oxygen …

Background Stem cell-based bone tissue engineering shows promise for bone repair but
faces some challenges, such as insufficient osteogenesis and limited architecture flexibility …

Carbon fibers are state-of-the-art materials with properties that include being light weight,
high strength, and chemically stable, and are applied in various fields including aeronautical …

The incidence of long bone non-unions has been estimated to range between 5 and 10%.
Autologous bone graft usually harvested from the iliac crest continues to be the gold …

ABSTRACT BMP2 and BMP7, which use bovine Achilles tendon–derived absorbable
collagen sponge and bovine bone collagen as scaffold, respectively, have been approved …