Collagen type I is the main organic constituent of the bone extracellular matrix and has been
used for decades as scaffolding material in bone tissue engineering approaches when …

Abstract Nano-hydroxyapatite (nano-HA) is a material with multiple uses due to its
biocompatibility and its resemblance to the nonorganic bone structure. It is used in various …

Regenerative medicine is becoming a fast-growing technique in today's scenario for
biomedical advancement. Researchers around the globe has suggested the involvement of …

Because bone-associated diseases are increasing, a variety of tissue engineering
approaches with bone regeneration purposes have been proposed over the last years …

Craniofacial deformities (CFDs) develop following oncological resection, trauma, or
congenital disorders. Trauma is one of the top five causes of death globally, with rates …

Bone tissue engineering techniques are a promising alternative for the use of autologous
bone grafts to reconstruct bone defects in the oral and maxillofacial region. However, for …

Hydroxyapatite (HAp) with good mechanical properties is a promising material meant for a
number of useful bids in dentistry and orthopedic for biomedical engineering applications for …

Craniofacial/jawbone deformities remain a significant clinical challenge in restoring
facial/dental functions and esthetics. Despite the reported therapeutics for clinical bone …

Objective Stem cell therapy in periodontal tissue regeneration has reported optimistic
regenerative results; evidence supporting its superiority over conventional methods is still …

Craniofacial bone defect anomalies affect both soft and hard tissues and can be caused by
trauma, bone recessions from tumors and cysts, or even from congenital disorders. On this …