Influence of Structured Implant Surfaces on Neighbouring Bio-Systems and its Mathematical Modelling

  • Katarcyna Biala: Characterization of the extracellular matrix dependent on the chemical composition of the underlying surface
  • Gunnar Rott: Alloy titanium and composite with near-surface structure gradients for implants
  • Yiyi Lu: Alloy titanium and composite with near-surface structure gradients for implants.
  • Ekaterina Gongadze: Influence of the surface structure of a biomaterial on the field distribution in the neighbouring bio-systems
  • Apurva Sarkar: Reaction-diffusion equations for the adhesion of osteoblasts on metallic implants
  • Claudia Matschegewski: Analysis of initial adhesion mechanisms of osteoblasts in dependence of chemical, physical and electrical characteristics of implant surfaces
  • Harald Birkholz: Automatic detection of cyto-morphological parameters from microscope-images
  • Bing Liu: Mathematical analysis of the interaction of biomaterial and cells
  • Stefan Pauleweit: Mathematical modelling of cell growth depending on characteristics of the titan surface
  • Friederike Kunz: In vitro analysis of calcium channel function in osteoblasts

Electrical Interaction between Implant and Bio-Systems

  • Marian Lüder: Entwurf und Realisierung eines dynamischen Regelsystems zur Anpassung von Cochlea-Implantaten an die Umgebungslautstärke sowie elektro-physiologische Parameter
  • Revathi Appali: Modeling of the coupling of action potentials and electrodes on neurochips
  • Tom Reimer: Influence of electrical fields on neuronal growth and electrical activity in cortical neuronal networks cultivated on neurochips
  • Eduard Vinter: Numerical analysis of electric field effects on deep brain stimulating electrodes
  • Christian Schmidt: Numerical analysis of the electric field effects at electrodes for deep brain stimulation
  • Matthias Nissen: In-vitro stimulation of basal ganglia neurons on neurosensor-chips
  • Karl Andreas Nowak: Optimization of electrodes and stimulation parameters for Deep Brain Stimulation (DBS)
  • Kathrin Badstübner: Optimization of electrodes and stimulation parameters for Deep Brain Stimulation (DBS)
  • Thomas Weihe: Stimulation of human osteoblasts on cell chips in vivo
  • Sebastian M. Bonk: Implementation of sensoric and acuatoric in a 3D-cell culture system
  • Yvonne Haba: Electro-stimulating implants for bone regeneration: Parameter analysis and design optimization
  • Yukun Su: Optimization and development of implants and parameters for the electromagnetic stimulation of bone regeneration