AkvaMed

Aims:

"Aktiv-verformbare, hydraulisch-aktuierte, nachgiebige Mechanismen für schonende Implantate und Instrumentarien" (Akva-Med) - Using compliant mechanisms for actuation of medical implants and instruments - Planning, testing, analytical synthesis and fabrication of CI electrode carrier with fludically actuation

Expected benefit of such mechanisms: - Hearing preservation - Perimodiolar position within the scala tympani of the cochlea

Video Documentations:

Full Version (German Text, ~15min):

|Short Versions: | |------|----------| |German Text (~5min): | English Text (~5min):| |||

Patents and Awards:

  • Goldmedal at the international traide fair „Ideen-Erfindungen-Neuheiten (IENA)“ (ideas-inventions-new products) Nürnberg, Germany, 2015; Topic: „Adaptiver Elektrodenträger, seine Verwendung und Verfahren zur Insertion eines Cochlea-Implantat-Elektrodenträgers“
  • Griebel, S.; Hügl., S.; Rau, T.S.; Majdani, O.; Wystup, C.; Lenarz, T.; Zentner, L.: Adaptiver Elektrodenträger, seine Verwendung und Verfahren zu seiner Insertion file number: DE 10 2016 003 295 B3, patent granted 23.03.2017, [PDF]

The research team from Medical School Hannover and Ilmenau University of Technology, represented by Silke Hügl (MHH) and Stefan Griebel (TUI), receive the gold medal from Henning Könicke (iENA manager, left). Image: Andreas Heckel


Project Funding:

Funded by the German Research Foundation (DFG) under grant number MA 4038/9-1.

Project Partners:

Ilmenau University of Technology, Mechanism Technology

Contact: Silke Hügl | Huegl.Silke@mh-hannover.de

About The VIANNA research team