The porous structure design of implants can not only obtain a more lightweight implant but
also provide more space for its cell growth. The technology development of additive …

Objectives During the last decades, several changes of paradigm have modified our view on
how biomaterials' surface characteristics influence the bioresponse. After becoming aware …

Although the biological functions of cell and tissue can be regulated by biochemical factors
(eg, growth factors, hormones), the biophysical effects of materials on the regulation of …

Long‐term and stable fixation of implants is one of the most important points for a successful
orthopedic surgery in the field of endoprosthesis. Osseointegration (OI), functional …

With the ever‐deeper understanding of nano–bio interactions and the development of
fabrication methodologies of nanomaterials, various therapeutic platforms based on …

Abstract Three-dimensional (3D) printing technology is serving as a promising approach of
fabricating titanium (Ti) and its alloys used for bone tissue engineering. However, the …

Over the last few years, biopolymers have attracted great interest in tissue engineering and
regenerative medicine due to the great diversity of their chemical, mechanical, and physical …

Nowadays, titanium and its alloys are widely used materials in implantology. Nevertheless,
the greatest challenge is still its appropriate surface treatment in order to induce optimal …

Abstract Treatment of implant-associated infection is becoming more challenging, especially
when bacterial biofilms form on the surface of the implants. Developing multi-mechanism …

A growing interest in creating advanced biomaterials with specific physical and chemical
properties is currently being observed. These high-standard materials must be capable to …