CIRDinnova | Shifting the limits of resuscitation with “CIRD Controlled Integrated Resuscitation Device”

Summary
Sudden cardiac arrest is one of the most frequent causes of death. But only 3% of the patients survive out-of-hospital resuscitation, and only 18% survive in-hospital resuscitation. Today the time-frame for successful resuscitation is only about 3 to 5 minutes after cardiac arrest. Thereafter, with every minute a rapid decline in survival is observed, tending to “zero” beyond ten minutes of CPR. For decades no significant improvement of the clinical outcome and no significant scientific progress in resuscitation could be shown! More than 10 years ago a research group led by the international renowned cardiac surgeon Prof F Beyersdorf at the Freiburg University Hospital started intensive clinical R&D to develop a completely new therapeutic concept for resuscitation The new therapeutic concept enables a game changing breakthrough in resuscitation therapy. It is patient-individual and introduces for the first time a controlled, automated and personalized medical therapy in emergency medicine. The designation for the therapy is “CARL – Controlled Automated Reperfusion of the whoLe body”. To bring this new therapy worldwide into the hospitals and rescue organisations a new start-up company – the ResuSciTec GmbH - has been founded as a Spin-off from the Freiburg University Hospital in 2010. In close collaboration with the Freiburg University Hospital ResuSciTec developed an innovative system of medical devices called “CIRD - Controlled Integrated Resuscitation Device”. First very promising results from a clinical study in humans are already available. That means ResuSciTec has reached TRL 7. To reach TRL 9 and to start full international commercialisation and wide market take-up a consortium consisting of ResuSciTec as industrial partner and three university hospital in Freiburg (DE), Linz (AT) and Rotterdam (NL) will execute the proposed innovation action.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/730527
Start date: 01-12-2016
End date: 31-05-2022
Total budget - Public funding: 2 923 723,45 Euro - 2 277 959,00 Euro
Cordis data

Original description

Sudden cardiac arrest is one of the most frequent causes of death. But only 3% of the patients survive out-of-hospital resuscitation, and only 18% survive in-hospital resuscitation. Today the time-frame for successful resuscitation is only about 3 to 5 minutes after cardiac arrest. Thereafter, with every minute a rapid decline in survival is observed, tending to “zero” beyond ten minutes of CPR. For decades no significant improvement of the clinical outcome and no significant scientific progress in resuscitation could be shown! More than 10 years ago a research group led by the international renowned cardiac surgeon Prof F Beyersdorf at the Freiburg University Hospital started intensive clinical R&D to develop a completely new therapeutic concept for resuscitation The new therapeutic concept enables a game changing breakthrough in resuscitation therapy. It is patient-individual and introduces for the first time a controlled, automated and personalized medical therapy in emergency medicine. The designation for the therapy is “CARL – Controlled Automated Reperfusion of the whoLe body”. To bring this new therapy worldwide into the hospitals and rescue organisations a new start-up company – the ResuSciTec GmbH - has been founded as a Spin-off from the Freiburg University Hospital in 2010. In close collaboration with the Freiburg University Hospital ResuSciTec developed an innovative system of medical devices called “CIRD - Controlled Integrated Resuscitation Device”. First very promising results from a clinical study in humans are already available. That means ResuSciTec has reached TRL 7. To reach TRL 9 and to start full international commercialisation and wide market take-up a consortium consisting of ResuSciTec as industrial partner and three university hospital in Freiburg (DE), Linz (AT) and Rotterdam (NL) will execute the proposed innovation action.

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