Bioceramics, particularly calcium phosphates, bioactive glasses, and crystalline silicates,
are a principal group of biomaterials employed for the regeneration of damaged tissues and …

Abstract Recently, Poly (lactic-co-glycolic) Acid (PLGA) has garnered great attention as
foundational material for biomedical applications due to inherent biocompatibility, and …

Bone tissue engineering (BTE) is a promising alternative to repair bone defects using
biomaterial scaffolds, cells, and growth factors to attain satisfactory outcomes. This review …

Biphasic calcium phosphate (BCP) microspheres benefit from, on the one hand, a desired
shape offering improved flowability and injectability to fill complex-shaped bone defects and …

This article presents current possibilities of using polyester-based materials in hard and soft
tissue engineering, wound dressings, surgical implants, vascular reconstructive surgery …

Calcium phosphates (apatites) are considered as a research frontier for bone regeneration
applications by virtue of similarity to the mineral constituent of bone, suitable biocompatibility …

Abstract Bredigite (Br; Ca 7 MgSi 4 O 16) is known as one of the most popular calcium-
silicate bioceramics. It has an orthorhombic structure containing calcium silicate magnesium …

Scaffolds have a key role in the clinical success of tissue engineering for the regeneration of
damaged tissues. Their bio-performance is often described as the extent to which they can …

A combination of TiO 2 nanotube array (TON) and controlled drug release system is
employed to provide enhanced surface properties of titanium implants. Electrochemical …

The nanomaterial and related toolkit have promising applications for improving human
health and well-being. Nanobased drug delivery systems use nanoscale materials as …