Angiogenesis and Immunomechanics
Healing begins with the self-organisation of cells in the wound to reestablish structured tissue and restore the mechanical stability and intrinsic pretension of the injured matrix lost through the injury. Our aim is to decipher this independent organisation of fibroblasts, vascular precursors, immune cells and mechanical instability in the complex environment of the tissue. A better understanding of this interplay forms the basis for novel therapeutic approaches in musculoskeletal regeneration.
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Project Funding
Authors:2023 -2027
Title:Engineering cellular self-organisatoin by controlling the immuno-mechanical interplay
ERC Advanced Grant
Journal:Project leader: Georg Duda
Authors:2022 - 2025
Title:FOR 5177 Subproject - In vivo mechanical loading and tissue adaptation in vertebrae: Inflammation, pain and opioid effects
Deutsche Forschungsgemeinschaft (DFG)
Research Unit FOR 5177Journal:Project leader: Georg Duda, Christoph Stein
Authors:2021 - 2024
Title:CRC 1444 Subproject - Mechano-dependency of early bone healing and angiogenesis
Deutsche Forschungsgemeinschaft (DFG)
Collaborative Research Centre 1444Journal:Principal Investigator: Georg Duda, Holger Gerhardt
Authors:2021 - 2024
Title:CRC 1444 Subproject - Understanding and shaping of bone regeneration by cellular metabolic adaption
Deutsche Forschungsgemeinschaft (DFG)
Collaborative Research Centre 1444Journal:Principal Investigator: Birgit Sawitzki, Georg Duda
Authors:2021 - 2024
Title:SFB 1444 Subproject - Hydrogels with spatial patterning of biophysical and biochemical properties to guide osteogenesis
Deutsche Forschungsgemeinschaft (DFG)
Collaborative Research Centre 1444Journal:Project leader: Georg Duda
Authors:2021 - 2024
Title:CRC 1444 Subproject - Central Administrative Project - Central tasks of the Collaborative Research Centre
Deutsche Forschungsgemeinschaft (DFG)
Collaborative Research Centre 1444Journal:Principal Investigator: Georg Duda, Ulrich Stöckle, Dieter Beule
Authors:2021 - 2024
Title:Osteoheal31-Prospective clinical phase I / IIa study to evaluate the safety and efficacy of a local, autologous CD31+ cell application to improve healing after humeral head fracture - subproject study coordination
Bundesministerium für Bildung und Forschung (BMBF)
Deutsches Zentrum für Luft- und Raumfahrt e. v. (DLR)Journal:Project leader: Georg Duda
Authors:2020 -2024
Title:Cuver Subproject - Preclinical investigation of a copper-based antimicrobial surface technology in a large animal bone healing model
Bundesministerium für Bildung und Forschung (VDI)
VDI TechnologiezentrumJournal:Project leader: Georg Duda
Authors:2020 - 2024
Title:Krafttraining im Nachwuchsleistungssport 2.0
Uni Potsdam /BVA
Journal:Project leader: Georg Duda
Authors:2020 - 2023
Title:Stratefizierte Therapie und Nachsorge bei Rückenschmerzpatienten - ReNaBac, Phase II
DRV
Journal:Project leader: Georg Duda
Authors:2018 - 2024
Title:Einstein BIH Visiting Fellowship: Viola Vogel
Stiftung Charité
Journal:Principal Investigator: Viola Vogel and Georg Duda
Authors:2017 - 2024
Title:Einstein BIH Visiting Fellowship: David Mooney
Stiftung Charité
Journal:Principal Investigator: David Mooney and Georg Duda
Authors:2018 - 2022
Title:A new plating system for treatment of periprosthetic fracture fixation
Stryker European Operations B.V.
Journal:Principal Investigator: Georg Duda
Authors:seit 2016
Title:Development of MR-based procedures and technologies for non-invasive in-vivo assessment of mechanical loading of tissues: Movement and straining of soft tissue structures using the knee joint as example system
Deutsche Forschungsgemeinschaft (DFG)
SachbeihilfenJournal:Principal Investigator: Georg Duda, Jürgen Reichenbach, Stefan Zachow
Researcher Contact: Nicholas Brisson