Zhenting Zhang

TL;DR: TiO(2) nanotubes can modulate bone formation events at the bone-implant interface as to reach favorable molecular response and osseointegration and the diameters of nanot tubes can be precisely controlled in order to obtain better bone formation.

TL;DR: It is suggested that Ta(2)O(5) nanotube films can improve the anticorrosion, biocompatibility, and osteoinduction of pure tantalum, which provides the theoretical elaboration for development of tantalum endosseous implant or implant coating to a certain extent.

TL;DR: Results showed that compared to plain TiO2 nanotubes,TiO2 decorated with 0.015 M ZnO provided unprecedented antibacterial properties while maintaining the stem cell proliferation capacity necessary for enhancing the use of Ti in numerous medical applications, particularly in dentistry.

TL;DR: Improved antibacterial properties and, at the same time, greater stem cell osteogenic capacity when decorating TNTs with nanosized TiO2 particles, which may significantly improve orthopedic and dental implant efficacy are demonstrated.

TL;DR: This work fabricated individualized tissue engineering scaffolds based on alveolar bone defects and found that the mechanical properties of the scaffold were similar to adult cancellous bone.