ISAKOS: 2023 Congress in Boston, MA USA

ISAKOS 2023 Congress Abstract Author

 

Jens Wermers, MD

Univesity Hospital Muenster, Department of Trauma, Hand and Reconstructive Surgery
Münster GERMANY

Jens Wermers is a biomechanical engineer at the Department for Trauma, Hand, and Reconstructive Surgery of the University Hospital Münster. He previously worked as a scientist for sensor technology and robotics at the Rosen Technology and Research Center. Wermers received his MS degree from the Technical University of Dortmund in electrical engineering and is currently pursuing a doctorate in medical sciences at the University of Münster. He supervises robot-based studies on joint regions such as the knee, ankle, spine, and shoulder. His own research focuses on studies of shoulder instability and influencing factors.

Tue 06/20
10:25 - 10:30
Room 210 Scientific Paper Block: Shoulder Instability
Paper
Glenoid Concavity Affects Anterior Shoulder Stability In A Biomechanical Model Including Soft Tissue and The Rotator Cuff’s Compressing Forces
Author
ePosters
Knee - ACL
E-Poster
Comparable Primary Stability Between Current-Generation Adjustable Loop Cortical Buttons for Anterior Cruciate Ligament Reconstruction – A Biomechanical Study
Author
ePosters
Sports Medicine
E-Poster
Precision Of Radiostereometric Analysis For Use In Biomechanical Experiments – Evaluation And Comparison With A 3D Camera System
Author
ePosters
Knee - Ligaments (Not ACL)
E-Poster
Biodegradable Magnesium Bone Staples Show Comparable Primary Stability In Comparison to Bone Staples Made Of Steel - A Biomechanical Comparison.
Author
ePosters
Shoulder - Rotator Cuff
E-Poster
The Influence of Different Rotator Cuff Tears in Relation to Glenoid Depth on Glenohumeral Stability - A Robotic Biomechanical Analysis
Author
ePosters
Shoulder - Instability
E-Poster
The Influence Of Glenoidal Concavity On Shoulder Stability: A Comparison Between Computed Tomography and Magnetic Resonance Imaging
Author
ePosters
Knee - Meniscus
E-Poster
A New Arthroscopic Pull-In All-Suture Anchor Meniscus Root Tear Repair Shows Comparable Biomechanical Properties as Conventional Trans-Osseous Pull-Out and Anchor Repair
Author