His scientific interests lie mostly in Bone healing, Biomedical engineering, Orthodontics, Anatomy and Surgery. His biological study spans a wide range of topics, including Inflammation, Bone regeneration, Hematoma and Callus. His Biomedical engineering research incorporates elements of Matrix, Osseointegration and Regeneration.
Georg N. Duda combines subjects such as Stair climbing, Weight-bearing, Tibia and Biomechanics with his study of Orthodontics. His Anatomy research includes elements of Bone density, Femur and Bone cell. His work is dedicated to discovering how Surgery, Polycaprolactone are connected with Transplantation, Tissue engineering and Bone morphogenetic protein and other disciplines.
Georg N. Duda mainly investigates Bone healing, Biomedical engineering, Surgery, Anatomy and Bone regeneration. The Bone healing study combines topics in areas such as Osteotomy, Immunology, Pathology and Callus. The concepts of his Biomedical engineering study are interwoven with issues in Stiffness, Cartilage, Implant and In vivo.
While the research belongs to areas of Surgery, Georg N. Duda spends his time largely on the problem of Orthodontics, intersecting his research to questions surrounding Biomechanics. His Bone regeneration research incorporates elements of Tissue engineering and Mesenchymal stem cell, Regeneration, Cell biology. His research investigates the link between Mesenchymal stem cell and topics such as Transplantation that cross with problems in Skeletal muscle.
Georg N. Duda focuses on Bone healing, Bone regeneration, Regeneration, Orthodontics and Cartilage. His study in Bone healing is interdisciplinary in nature, drawing from both Osteotomy, Endochondral ossification, Bone morphogenetic protein 2 and Cell biology. His Bone regeneration study integrates concerns from other disciplines, such as Scaffold, Immunology, Endogenous regeneration, Bone tissue and Mesenchymal stem cell.
His research integrates issues of Defect healing, Inflammation, Immune system, Skeletal muscle and Biomedical engineering in his study of Regeneration. His studies deal with areas such as Implant, Stiffness, Finite element method and Mechanobiology as well as Biomedical engineering. Georg N. Duda focuses mostly in the field of Orthodontics, narrowing it down to matters related to Weight-bearing and, in some cases, Pivot element.
Georg N. Duda mostly deals with Bone healing, Bone regeneration, Regeneration, Cell biology and Mesenchymal stem cell. In his study, he carries out multidisciplinary Bone healing and Callus formation research. His Bone regeneration research incorporates themes from Endogenous regeneration, Bone tissue, Immunology and Scaffold.
His work carried out in the field of Regeneration brings together such families of science as Bioinformatics, Inflammation, Immune system, Skeletal muscle and Cell type. The study incorporates disciplines such as Self-healing hydrogels and Angiogenesis in addition to Cell biology. His Mesenchymal stem cell research includes elements of RUNX2, Angiogenin and Stromal cell.
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Hip contact forces and gait patterns from routine activities.
G Bergmann;G Deuretzbacher;M Heller;F Graichen.
Journal of Biomechanics (2001)
Hydrogels with tunable stress relaxation regulate stem cell fate and activity
Ovijit Chaudhuri;Luo Gu;Luo Gu;Darinka Klumpers;Darinka Klumpers;Darinka Klumpers;Max Darnell;Max Darnell.
Nature Materials (2016)
Musculo-skeletal loading conditions at the hip during walking and stair climbing.
M.O Heller;G Bergmann;G Deuretzbacher;L Dürselen.
Journal of Biomechanics (2001)
Tibio-femoral loading during human gait and stair climbing.
William R Taylor;Markus O Heller;Georg Bergmann;Georg N Duda.
Journal of Orthopaedic Research (2004)
A survey of formal methods for determining the centre of rotation of ball joints.
Rainald M. Ehrig;William R. Taylor;Georg N. Duda;Markus O. Heller.
Journal of Biomechanics (2006)
Influence of muscle forces on femoral strain distribution
Georg N. Duda;Markus Heller;Juergen Albinger;Olaf Schulz.
Journal of Biomechanics (1998)
Determination of muscle loading at the hip joint for use in pre-clinical testing.
Markus Heller;Georg Bergmann;Jean-Pierre Kassi;Lutz Claes.
Journal of Biomechanics (2005)
Internal forces and moments in the femur during walking
Georg N. Duda;Erich Schneider;Edmund Y.S. Chao.
Journal of Biomechanics (1997)
The Early Fracture Hematoma and Its Potential Role in Fracture Healing
Paula Kolar;Katharina Schmidt-Bleek;Hanna Schell;Timo Gaber.
Tissue Engineering Part B-reviews (2010)
The challenge of establishing preclinical models for segmental bone defect research.
Johannes C. Reichert;Siamak Saifzadeh;Siamak Saifzadeh;Martin E. Wullschleger;Devakara R. Epari.
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