SISCERA | Smart Implants from Safe CERAmics

Summary
Great advances were made by SISCERA partners in the development of the world’s first ceramics showing transformation induced plasticity and perfect predictability. These specifically designed materials were the main research results of the LongLife FP7 project and will be brought to market via SISCERA. The LONGLIFE material is based on a novel, highly biocompatible ceramic coupled with a specific surface modification, procuring enhanced osseointegration to implants. Its reliability and mechanical performances have been validated in accordance to the relevant standards.
The core objective of SISCERA (Smart Innovations from Safe CERAmics) is to prepare market penetration by the end of 2019 of the first commercial application of this revolutionary ceramic.
This new type of material can serve industries such as biomedical (implants, bone saws, prostheses), automotive & fuel cell. DMC will commercialise the material for several applications: (i) ceramic bars (for Anthogyr and biomedical customers), (ii) centering pins for car body welding (for existing automotive industry customers), and (iii) positioning devices for handling robots (for existing industrial customers). SWEREA will apply its surface modification process to facilitate production of solid-oxide fuel cells. The partners have carefully analysed the different markets and have determined that the most strategic initial biomedical application is the dental implant. This market is expected to grow annually by 6-8% during the next years, to 5.4 Billion € by 2020. Ceramics are entering the market as implant materials, but their use is still limited by inadequate toughness and osseointegration. The SISCERA consortium has the ideal material and expertise to provide the first dental implant fully meeting patient needs.
The current FTI project will allow partners to obtain clinical and biocompatibility validation of the implant while also penetrating the market with promising applications in other industries.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/737954
Start date: 01-01-2017
End date: 31-12-2019
Total budget - Public funding: 2 760 688,75 Euro - 2 200 044,00 Euro
Cordis data

Original description

Great advances were made by SISCERA partners in the development of the world’s first ceramics showing transformation induced plasticity and perfect predictability. These specifically designed materials were the main research results of the LongLife FP7 project and will be brought to market via SISCERA. The LONGLIFE material is based on a novel, highly biocompatible ceramic coupled with a specific surface modification, procuring enhanced osseointegration to implants. Its reliability and mechanical performances have been validated in accordance to the relevant standards.
The core objective of SISCERA (Smart Innovations from Safe CERAmics) is to prepare market penetration by the end of 2019 of the first commercial application of this revolutionary ceramic.
This new type of material can serve industries such as biomedical (implants, bone saws, prostheses), automotive & fuel cell. DMC will commercialise the material for several applications: (i) ceramic bars (for Anthogyr and biomedical customers), (ii) centering pins for car body welding (for existing automotive industry customers), and (iii) positioning devices for handling robots (for existing industrial customers). SWEREA will apply its surface modification process to facilitate production of solid-oxide fuel cells. The partners have carefully analysed the different markets and have determined that the most strategic initial biomedical application is the dental implant. This market is expected to grow annually by 6-8% during the next years, to 5.4 Billion € by 2020. Ceramics are entering the market as implant materials, but their use is still limited by inadequate toughness and osseointegration. The SISCERA consortium has the ideal material and expertise to provide the first dental implant fully meeting patient needs.
The current FTI project will allow partners to obtain clinical and biocompatibility validation of the implant while also penetrating the market with promising applications in other industries.

Status

CLOSED

Call topic

FTIPilot-01-2016

Update Date

11-05-2024
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Interoperability (ICT)
Industrial Reference ICT Architectures
Reference Architectural Model Industrie 4.0 (RAMI 4.0)
RAMI 4.0 Vertical Axis and associated standards
Communication Layer (RAMI 4.0)
ISO/IEC 30165 - Internet of Things (IoT) -Real-time IoT framework
FTIPilot-01-2016 Fast Track to Innovation Pilot