Bone is a dynamic self-healing organ and a continuous remodeling ensures the restoration
of the bone structure and function over time. However, bone remodeling is not able to repair …

The process of bone tissue repair and regeneration is complex and requires a variety of
physiological signals, including biochemical, electrical and mechanical signals, which …

Osteoblasts and osteoclasts play a crucial role in the dynamically coupled balance during
bone regeneration and remodeling. They complement and restrict each other in the human …

Polymeric scaffolds are a determinant part of modern tissue engineering owing to their great
diversity, adaptability, and processability. Interestingly, the physical properties of these …

Bone as a minerals' reservoir and rigid tissue of the body generating red and white blood
cells supports various organs. Although the self-regeneration property of bone, it cannot …

The piezoelectric nature of natural bone tissue makes the use of piezoelectric biomaterials
in promoting bone regeneration to be a feasible and attractive strategy. Barium titanate …

Bone regenerative biomaterials are essential in treating bone defects by supplying
fundamental extracellular substrates where cells can adhere, proliferate, and differentiate …

Nanofibrous polyethersulfone (PESf) scaffolds were fabricated by the electrospinning
method. The fabricated scaffolds were surface-modified by fluorapatite nanoparticles (FAn) …

Bone-substitute materials are essential in dental implantology. We prepared collagen
(Col)/hydroxyapatite (Hap)/acidic gelatin (AG)/basic fibroblast growth factor (b-FGF) …

Herbal‐derived three‐dimensional scaffolds have a unique structure that represents the
natural cellular microenvironment and can be potentially used for tissue engineering …