Titanium surfaces modified with nano-topography and nanotextured keratin coating for dental implant collars

# Record card
41
Thematic areas
Health & Biotech / Micro and nanotechnology related to biological sciences
Health & Biotech / Medical Device
Materials / Processes of production & treatment of materials
Chemicals & Physics / Micro and nanotechnology related to physical, chemical and exact sciences
Description

The technology is intended to face the main problems of transmucosal dental implants, such as peri-implant mucositis, peri-implantitis and epithelial downgrowth. The strategy foresees the development of a surface able to favor soft tissues growth (gum sealing), limit at the implant collar these tissues, reduce bacterial adhesion and eventually have an antibacterial action. To reach these goals a titanium surface can at first be modified from a topographical standpoint with the obtainment of oriented grooves for soft tissues guidance, the surface can be covered with keratin nanofibers in a second step to enhance soft tissues growth (oriented with oriented fibers). Both these steps do not increase bacterial adhesion compared to a smooth titanium surface. Finally, an antibacterial action can be added by keratin doping with antibacterial ions (e.g. Ag).

Business fields
Industry
Type of innovation
Product innovation
Description of innovative features / Competitive advantages

The market of transmucosal dental implants actually does not offer solutions similar to the one proposed. The here proposed technology present a surface specifically designed in order to limit bacterial adhesion, guide and stimulate the growth of soft tissues and offer the possibility to have an effective antibacterial action (metal ion doping). The proposed solution allows the stimulation of soft tissues and their confinement to the implant collar region. The technology is multi-step with different complexity levels and allows the development of several commercial solutions for specific needs. Finally, the technology is environmentally friendly since it does not employ toxic reagent but uses keratin from industrial byproducts sustaining circular economy and local development.

Reference market
Incremental innovation
Impacts on existing markets
Development stage
Feasibility
TRL
2
Advantages
New product/process/service/technology
Patented technology
Yes
Country/ies

Italy

Market positioning
Italian
European
International
Partner required
Cooperation in national /european / international project

Information
For more information and/or to be put in contact with the Research Team, please contact the Project Manager:

Barbara Angelini - Project Manager
CNR - Unità Valorizzazione della Ricerca
Phone number 06.49932415
E-mail barbara.angelini@cnr.it