G
Georg N. Duda
Researcher at Charité
Publications - 613
Citations - 31004
Georg N. Duda is an academic researcher from Charité. The author has contributed to research in topics: Bone healing & Bone regeneration. The author has an hindex of 81, co-authored 563 publications receiving 25802 citations. Previous affiliations of Georg N. Duda include Humboldt University of Berlin & University of Ulm.
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Journal ArticleDOI
Mechanical quality of tissue engineered cartilage: results after 6 and 12 weeks in vivo.
Georg N. Duda,A. Haisch,Michaela Endres,Christian Gebert,Daniel Schroeder,Jan Hoffmann,Michael Sittinger +6 more
TL;DR: The mechanical testing procedure proved to be sufficiently sensitive to identify differences in properties between cartilage specimens of different origin and at different stages of healing, and may be a valuable tool for judging the utility of engineered cartilage prior to a broad clinical usage.
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Cartilage viability after trochleoplasty
TL;DR: This demonstration of non-injured cartilage at short-term follow-up together with promising clinical and radiological 2- and 5-year follow- up results indicate a potential promising outlook for the long term, as further chondral damage is not expected.
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THA loading arising from increased femoral anteversion and offset may lead to critical cement stresses.
TL;DR: Femoral anteversion, offset and their combination may therefore lead to an increased risk of implant loosening, and analyses of implant survival should consider this as a limiting factor in THA longevity.
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The Periosteal Bone Surface is Less Mechano-Responsive than the Endocortical.
Annette Birkhold,Annette Birkhold,Hajar Razi,Georg N. Duda,Richard Weinkamer,Sara Checa,Bettina M. Willie,Bettina M. Willie +7 more
TL;DR: It is demonstrated that adaptation varies even at different sites within the same bone within the skeleton, although it is clear structural adaptation varies between different bones in the skeleton.
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Working length of locking plates determines interfragmentary movement in distal femur fractures under physiological loading
TL;DR: The current finite element analysis demonstrates that plate working length significantly influences interfragmentary movements, thereby affecting the biomechanical consequences of fracture healing.