Bone disease and disorder treatment might be difficult because of its complicated nature.
Millions of patients each year need bone substitutes that may help them recover quickly from …

The worldwide occurrence of bone tissue related defects as well as diseases and lack of
successful perpetual cure has attracted attention and accelerated exploration of composite …

Bone tissue engineering integrates biomaterials, cells, and bioactive agents to propose
sophisticated treatment options over conventional choices. Scaffolds have central roles in …

The development of bone tissue construct through tissue engineering approach offers a
great promise in meeting the increasing demand for repair and regeneration of damaged …

Bone defects represent a medical and socioeconomic challenge. Engineering bioartificial
bone tissues may help to solve problems related to donor site morbidity and size limitations …

Advanced bone healing approaches included a wide range of biomaterials that mainly
mimic the composition, structure, and properties of bone extracellular matrix with osteogenic …

Mimicking native extracellular matrix with electrospun porous bio-composite nanofibrous
scaffolds has huge potential in bone tissue regeneration. The aim of this study is to fabricate …

Electrospun porous bone scaffolds are known to imitate the extracellular matrix very well
and provide an environment through which the tissue formation is enhanced. Although …

Fibrous scaffolds that reconstruct the extracellular matrix (ECM) have been utilized for tissue
regeneration demonstrated potential for guiding stem cell differentiation. Nanofibrous …

Fabricating bioactive nanofibrous scaffolds from biodegradable polymers to mimic native
tissue is an important approach in repairing bony defects. Silk fibroin (SF) may contribute to …