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Daniel Baumgartner
Researcher at Zurich University of Applied Sciences/ZHAW
Publications - 25
Citations - 564
Daniel Baumgartner is an academic researcher from Zurich University of Applied Sciences/ZHAW. The author has contributed to research in topics: Rotator cuff & Office chair. The author has an hindex of 8, co-authored 25 publications receiving 464 citations. Previous affiliations of Daniel Baumgartner include ETH Zurich & Winterthur Museum, Garden and Library.
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Supraspinatus tendon load during abduction is dependent on the size of the critical shoulder angle: A biomechanical analysis
TL;DR: The results support the concept that a high CSA can induce SSP overload particularly at low degrees of active abduction, and require substantially increased compensatory supraspinatus loads.
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Medial support by fibula bone graft in angular stable plate fixation of proximal humeral fractures: an in vitro study with synthetic bone
Georg Osterhoff,Daniel Baumgartner,Philippe Favre,Philippe Favre,Guido A. Wanner,Hans Gerber,Hans-Peter Simmen,Clément M. L. Werner +7 more
TL;DR: Medial support with an intramedullary fibular graft in an angular stable fixation of the proximal humerus in vitro increases overall stiffness of the bone-implant construct and reduces migration of the humeral head fragment.
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Inclination-dependent changes of the critical shoulder angle significantly influence superior glenohumeral joint stability
Beat K. Moor,Roman Kuster,Georg Osterhoff,Daniel Baumgartner,C.M.L. Werner,Matthias A. Zumstein,Samy Bouaicha +6 more
TL;DR: Glenoid inclination-dependent changes of the critical shoulder angle have a significant impact on superior glenohumeral joint stability and could explain the clinically observed association between large angles and degenerative rotator cuff tears.
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Glenohumeral joint reaction forces increase with critical shoulder angles representative of osteoarthritis ‐ a biomechanical analysis
TL;DR: It is suggested that a CSA typical for OA predisposes the glenohumeral joint to higher joint reaction forces and could plausibly play a role in joint overloading and development of OA.
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Biomechanical testing of a polymer-based biomaterial for the restoration of spinal stability after nucleotomy
Aldemar Andres Hegewald,Sven Knecht,Daniel Baumgartner,Hans Gerber,Michaela Endres,Christian Kaps,Edgar Stüssi,Claudius Thomé +7 more
TL;DR: PGA/HA biomaterial seems to be well suited for cell-free and cell-based regenerative treatment strategies in spinal surgery, and its abilities to restore spinal stability and potentially close annulus defects open up new vistas for regenerative approaches to treat intervertebral disc degeneration and for preventing implant herniation.