Surgical Technologies
Surgical Technologies covers the development, design, testing and analysis of implants, surgical instruments and medical devices. In cooperation with our industrial partners and leading research clinics, we develop new implants and test procedures. Thereby, we count on most modern laboratory infrastructure (current testing machines and industrial robots) as well as functional simulators developed in-house.
The laboratory has ISO 17025 Type C accreditation for the development of test procedures for endoprostheses, implants & traumatology products.
For analysis, we have a wide range of measurement technologies as force sensors, strain gauges, acceleration sensors and digital image correlation
Projects
As part of the reorganization of the research database, the previous lists of research projects are no longer available. Die Zukunft geht in Richtung Volltextsuche und Filterung, um bestmögliche Suchergebnisse für unsere Besucher:innen zur Verfügung zu stellen.
In the meantime, you can easily find the projects via text search using the following link: «To the new search in the project database»
Publications
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Croci, Eleonora; Eckers, Franziska; Nüesch, Corina; Aghlmandi, Soheila; Kovacs, Balazs Krisztian; Genter, Jeremy; Baumgartner, Daniel; Müller, Andreas Marc; Mündermann, Annegret,
2022.
Load-induced glenohumeral translation after rotator cuff tears : protocol for an in vivo study.
JMIR Research Protocols.
11(12), pp. e43769.
Available from: https://doi.org/10.2196/43769
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Croci, Eleonora; Künzler, Marina; Börlin, Sean; Eckers, Franziska; Nüesch, Corina; Baumgartner, Daniel; Müller, Andreas Marc; Mündermann, Annegret,
2022.
Biomechanics.
2(2), pp. 255-263.
Available from: https://doi.org/10.3390/biomechanics2020020
Bouaicha, Samy; Kuster, Roman; Schmid, Bruno; Baumgartner, Daniel; Zumstein, Matthias; Moor, Beat Kaspar, 2020.Biomechanical analysis of the humeral head coverage, glenoid inclination and acromio-glenoidal height as isolated components of the critical shoulder angle in a dynamic cadaveric shoulder model. Clinical Biomechanics.72, S. 115-121. Verfügbar unter: https://doi.org/10.1016/j.clinbiomech.2019.12.003
Moor, B.K.; Kuster, Roman; Osterhoff, G.; Baumgartner, Daniel; Werner, C.M.L.; Zumstein, M.A.; Bouaicha, S., 2016. Inclination-dependent changes of the critical shoulder angle significantly influence superior glenohumeral joint stability. Clinical Biomechanics. 32, S. 268-273. Verfügbar unter: https://doi.org/10.1016/j.clinbiomech.2015.10.013