Unser InstitutTeam
Meike Gierig

M. Sc. Meike Gierig

M. Sc. Meike Gierig
Adresse
An der Universität 1
30823 Garbsen
Gebäude
Raum
302
M. Sc. Meike Gierig
Adresse
An der Universität 1
30823 Garbsen
Gebäude
Raum
302
  • Forschungsprojekte

    In Silicio Analyses

  • Publikationen

    PUBLIKATIONEN

    Biomechanical Effects of a Cross Connector in Sacral Fractures : A Finite Element Analysis. / Gierig, Meike; Liu, Fangrui; Weiser, Lukas; Lehmann, Wolfgang; Wriggers, Peter; Marino, Michele; Saul, Dominik.

    in: Frontiers in Bioengineering and Biotechnology, Jahrgang 9, 669321, 26.05.2021.

    Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

    Computational model of damage-induced growth in soft biological tissues considering the mechanobiology of healing. / Gierig, Meike; Wriggers, Peter; Marino, Michele.

    in: Biomechanics and Modeling in Mechanobiology, Jahrgang 20, Nr. 4, 08.2021, S. 1297–1315.

    Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

    A Computational Model for Biological Tissues Considering the Influence of Injury on Growth and Remodelling. / Gierig, Meike; Marino, Michele; Wriggers, Peter.

    in: PAMM - Proceedings in Applied Mathematics and Mechanics, Jahrgang 19, Nr. 1, 01.11.2019.

    Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

    A Resonance Tracking Approach from Adaptive Control. / Gierig, Meike; Flessing, Lars.

    in: GAMM Archive for Students, 15.02.2019.

    Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

  • Vorträge

    Vortrag

    • M. Gierig, M. Marino, P. Wriggers (2021): A chemo-mechano-biological approach for modeling the restenosis process14th WCCM & ECCOMAS Congress 2020
    • M. Gierig, P. Wriggers, M. Marino (2021): Continuum Model for Damage-Induced Healing of Soft Biological TissuesGAMM 2020@21
    • M. Gierig, M. Marino, P. Wriggers (2019): A Continuum Model for Soft Biological Tissues: Collagen Damage Coupled with Growth and Remodeling4th International Conference on Biomedical Technology, Hannover, Germany
    • M. Gierig, M. Marino, P. Wriggers (2019): A Computational Model for Biological Tissues Considering the Influence of Injury on Growth and Remodelling90th Annual Meeting of the International Association of Applied Mathematics and Mechanics, Vienna, Austria
    • M. Gierig, M. Marino, P. Wriggers (2019): Continuum Modeling the Behavior of Soft Biological Tissues During and Due to Unphysiological Loading (poster presentation)16th International Symposium on Computer Methods in Biomechanics and Biomedical Engineering, New York, USA
    • M. Marino, M. Gierig, P. Wriggers (2019): Growth-and-Remodelling and Injury in Arterial Tissues: Chemo-Mechano-Biological Modelling25th Congress of the European Society of Biomechanics, Vienna, Austria
    • M. Gierig, M. Marino, P. Wriggers (2018): Multiphysics modelling of damage-induced response in arterial tissue: a computational framework for in-stent restenosisVirtual Physiological Human Conference, Zaragoza, Spain
    • M. Gierig, M. Marino, P. Wriggers (2018): A Chemo-mechano-biological Approach for the Computational Modelling of In-stent Restenosis10th European Solid Mechanics Conference, Bologna, Italy
    • M. Gierig, M. Marino, P. Wriggers (2018): A Multiphysics Approach for Modelling the Response of Arterial Tissue to Stent-induced Mechanical Injury (poster presentation)8th World Congress of Biomechanics, Dublin, Ireland
    • M. Marino, M. Gierig, M. Rolf-Pissarczyk, P. Wriggers (2018): Computational strategies for chemo-mechano-biological response to arterial injury13th World Congress on Computational Mechanics, New York, USA
  • Lehre
    Kontinuumsmechanik IWS 2019/20
    Technische Mechanik IVSS 2018
  • Betreute Studentische Arbeiten
    LiuMasterarbeitImplementation of a Gradient-Enhanced Damage Model in  ABAQUS
    TragoudasMasterarbeitExtension of a Novel Mathematical Model for Atherosclerosis
    BadalOnlinepraktikumSimulation of a Stenting Procedure in ABAQUS

    Jeising

    BachelorarbeitAgentenbasierte Modellierung des Wachstums von biologischem Weichgewebe aufgrund von Gewebeschädigung
    TurbinelliMasterarbeitInvestigation and computational implementation of wound healing processes based on cell biology
    LiskowBachelorarbeit

    Computergestützte Modellierung des chemisch-mechanischen Wachstums von biologischem Gewebe

    Waßmann

    Bachelorarbeit

    Numerische Simulation der lumbopelvinen Stabilisierung mithilfe der Finite-Elemente-Methode

    Liu

    Bachelorarbeit

    Analysis of lumbar spine fixation using finite element method

    Arlt

    Studienarbeit

    Computational Modeling of Stenotic Vessels and Treatment Options

    Mestiri

    Bachelorarbeit

    Numerische Simulation der Stentangioplastie mithilfe der Finite-Elemente-Methode

  • Studium

    Wissenschaftliche Mitarbeiterin

    Leibniz Universität Hannover
             Forschungsaufenthalt (6 Monate)
    University of Utah, Salt Lake City, Utah, USA
             Forschungsaufenthalt (1 Woche)University of Rome Tor Vergata, Rom, Italien

    Masterstudium Maschinenbau

    Technische Universität Chemnitz
             Forschungspraktikum (7 Monate)Tun Abdul Razak Reseach Centre, Hertford, Vereinigtes Königreich
    Bachelorstudium Medical EngineeringTechnische Universität Chemnitz
             Forschungspraktikum (4 Monate)Manipal Institute of Technology, Manipal, Karnataka, Indien