The multidisciplinary fields of tissue engineering and regenerative medicine have the
potential to revolutionize the practise of medicine through the abilities to repair, regenerate …

The reconstruction or repair of oral and maxillofacial functionalities and aesthetics is a
priority for patients affected by tooth loss, congenital defects, trauma deformities, or various …

The craniofacial region contains skin, bones, cartilage, the temporomandibular joint (TMJ),
teeth, periodontal tissues, mucosa, salivary glands, muscles, nerves, and blood vessels …

Albumin is a constitutional plasma protein, with well-known biological functions, eg, a
nutrient for stem cells in culture. However, albumin is underutilized as a biomaterial in …

The manipulation of cell behaviors is essential to maintaining cell functions, which plays a
critical role in repairing and regenerating damaged tissue. To this end, a rich variety of tissue …

Functional reconstruction of craniomaxillofacial defects is challenging, especially for the
patients who suffer from traumatic injury, cranioplasty, and oncologic surgery. Three …

The construction of biological scaffolds in vitro plays an important role in regenerative
engineering, which has always been the focus of research. The application of scaffold …

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

In newborn humans, and up to approximately 2 y of age, calvarial bone defects can naturally
regenerate. This remarkable regeneration potential is also found in newborn mice and is …

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