Bone regeneration repairs bone tissue lost due to trauma, fractures, and tumors, or absent
due to congenital disorders. The extracellular matrix (ECM) is an intricate dynamic bio …

The main aim of this review study was to report the state of art on the nano-scale
technological advancements of titanium implant surfaces to enhance the osseointegration …

The development, maintenance of healthy bone and regeneration of injured tissue in the
human body comprise a set of intricate and finely coordinated processes. However, an …

Titanium (Ti) is broadly used for clinical purposes in various medical fields related to bone
repair because of its favorable mechanical properties and its ability to osseointegrate in host …

This review addresses the different aspects of the use of titanium and its alloys in the
production of dental implants, the most common causes of implant failures and the …

In the human body, almost all cells interact with extracellular matrices (ECMs), which have
tissue and organ-specific compositions and architectures. These ECMs not only function as …

Titanium implants are widely used in the orthopedic and dentistry fields for many decades,
for joint arthroplasties, spinal and maxillofacial reconstructions, and dental prostheses …

Surface biofunctionalization aims to create cell-instructive surfaces that control the behavior
of cells and modulate cellular interactions by incorporating cell signaling moieties at the …

Various biomaterials have been evaluated to enhance bone formation in critical-sized bone
defects; however, the ideal scaffold is still missing. The objective of this study was to …

With the development of three-dimensional (3D) printed technology, 3D printed alloy
implants, especially titanium alloy, play a critical role in biomedical fields such as …