The use of bone grafts is the standard to treat skeletal fractures, or to replace and regenerate
lost bone, as demonstrated by the large number of bone graft procedures performed …

Bone is a nanocomposite composed of organic (mainly collagen) and inorganic
(nanocrystalline hydroxyapatite) components, with a hierarchical structure ranging from …

Abstract Treatment of critical-size bone defects is a major medical challenge since neither
the bone tissue can regenerate nor current regenerative approaches are effective. Emerging …

Bone-tissue engineering is a therapeutic target in the field of dental implant and orthopedic
surgery. It is therefore essential to find a microenvironment that enhances the growth and …

The dual extrusion electrospinning technique was used to fabricate multilayered 3D
scaffolds by stacking microfibrous meshes of poly (lactic acid-co-glycolic acid)(PLGA) in …

The presence of inorganic bioactive minerals with polymers can accelerate and promote
several processes including: bone cell joining, proliferation, differentiation, and expression …

Innovative nanofibrous scaffolds have attracted considerable attention in bone tissue
engineering, due to their ability to mimic the hierarchical architecture of an extracellular …

Bovine pericardium is widely used as a raw material in bioengineering as a source of
collagen, a fundamental structural molecule. The physical, chemical, and biocompatibility …

This article reviews recent significant advances in the design of nanofiber scaffolds for
orthopedic tissue repair and regeneration. It begins with a brief introduction on the …

Electrospinning is a promising technique for the production of scaffolds aimed at the
regeneration of soft tissues. The aim of this work was to develop electrospun bundles …