Bone tissue engineering is becoming an ideal strategy to replace autologous bone grafts for
surgical bone repair, but the multihierarchical complexity of natural bone is still difficult to …

This paper provides a comprehensive overview of nanofibrous structures for tissue
engineering purposes and the role of non-thermal plasma technology (NTP) within this field …

Developing permanent antibacterial and rapid hemostatic wound dressings with excellent
biocompatibility is urgently needed and has always gained great attention. Here, a series of …

The limited ability of most human tissues to regenerate has necessitated the interventions
namely autograft and allograft, both of which carry the limitations of its own. An alternative to …

The goal of regenerative medicine is to achieve tissue regeneration. In the past, commonly
used techniques included autologous or allogeneic transplantation and stem cell therapy …

Electrospinning is a versatile tool used to produce highly customizable nonwoven nanofiber
mats of various fiber diameters, pore sizes, and alignment. It is possible to create …

The occurrence of an implant-associated infection (IAI) with the formation of a persisting
bacterial biofilm remains a major risk following orthopedic biomaterial implantation. Yet …

Electrospinning of polymer materials is a widely used technique, providing nanofibrous mats
with high surface to volume ratio and porosity, which show a great interest in many fields …

Concentrated Growth Factors (CGF) represent new autologous (blood-derived biomaterial),
attracting growing interest in the field of regenerative medicine. In this study, the chemical …

One of the novel strategies for bone tissue regeneration is photobiomodulation (PBM) which
depends on the red and near-infrared light absorption by mitochondria and may trigger bone …