Experimental principles

• Rico Schnierer: Optimization of CaTiO₃ for implants

• Marcel Wetegrove: Synthesis and characterisation of bioactive bone implant materials

• Andreas Körtge: Correlation of implant surfaces with bio-systems 

• Anne Langenbach: Influence of electrical fields on neuronal growth and electrical activity in cortical neuronal networks cultivated on neurochips

• Philip Wysotzki: Connection between surface structure, cell activity and cell adhesion power

• Christin Kleineberg: Optimization of the culture processes for epitaxial growth of osteobasts with parallel simulation

• Anne-Marie Galow: Prevention of the generation of biological film-forming on implants

• Denise Franz: Analysis of the electrical signal-electrode-coupling

• Hendrik Brehme: Prevention of biofilm formation on implants

• Abdullah Riaz: Development of a 3D Active Implant Prototype

• Jana Markhoff: Differentiation and activity of human primary osteoclasts from peripheral blood mononuclear cells under the influence of orthopedic wear particles

Medical Application

• Mirjana Holst: In silico study on in vitro experiments to determine the electric membrane properties of a realistic cochlear model  for electric field simulations on cochlear implants

• Caroline Mörke: Evaluation of the influence of topographic and chemical surface properties on the cell biology

• Thomas Dauben: Implant systems for bone regeneration: Investigation of the influence of electromagnetic fields on bacteria and human cells

• Josefin Ziebart: Cell biological investigations of electromagnetic stimulation of osteobasts in 3D-setting

• Thomas Bender: Investigation of electro-stimulating implants for bone regeneration and prevention of implant-associated bacterial infection using DC. Parameter analysis and surface coatings optimization, in-vitro investigation

• Anna Adamus: Role of transmembrane syndecan receptors in cellular adhesion on modified biomaterials

• Bettina Hiemer: Treatment of osteochondral defects by the use of electrical stimulation: Investigations of the cellular response

• Katharina Wegner: Combined effects of cold atmospheric pressure plasma and electrical stimulation on biofilms of Staphylococcus epidermidis

• Sarah Zaatreh: Microbiological investigations of antibacterial implant surfaces in mono- and co-culture

• Simone Krüger: Investigation of combined electrical and mechanical stimulation on osseous cells

Theoretical Models

• Kiran Sriperumbudur: Modeling simulation of stimulating electrode coupling with auditory nerve/ nerve fibers

• Sebastian Hanisch: Mathematical models for the reconstruction of cellular networks on multielectrode arrays

• Ralf Warmuth: Design and implementation of an FPGA-based embedded system for the automatic adaption of cochlear implants

• Azhar Z. Syed: Investigation of the influence of the electrode surface structure on the field distribution in neighbouring bio-systems

• Tom C. Theile: Spatio-temporal modeling of cells interacting on surfaces

• Ulf Zimmermann: Mathematical approaches to bone remodelling under the influence of electric stimulation

• Bachir Delenda: Reaction-diffusion model of the adhesion of osteoblasts on metallic implant using electrical stimulation
  

• Seyed M. H. Hosseini: Developing of piezoelectric bio-active implants for bone modeling/remodeling process

• Andrea Böhme: Numerical simulation of therapeutic effects of deep brain stimulation in an animal model

• Duy Truong: Numerical simulation of bone growth on metallic implants

• Kevin Struwe: Dynamic adjustment of cochlear implants to improve speech comprehension

• Christian Bahls: Positivity preserving integration schemes for computing the galvano-taxis of bone cells using reaction-diffusion-equations

• Karthik Sridhar: Modeling and electrical simulation of deep brain stimulation for treating parkinson's disease

• Bhargava Palakurthy: Erstellung eines Reaktions-Diffusion-Modells der Adhasion von Osteoblasten auf metallischen Implantaten unter Einbeziehung elektrisher Stimulation