Project groups and projects

Project area A

Modelling and characterisation – in silico and in vitro

Project area B

Functional materials, energy supply and reliability

Project area C

Regeneration of tissue structures – in vitro and in vivo

Project area

Service Projects and Integrated Research Training Group

A01

omputational models for analysing the impact of electric fields on intracellular and intercellular processes at different spatio-temporal scales

B01

Electrically conductive and piezoactive materials for multifunctional implants for bone and cartilage regeneration

C01

Electro-physical stimulation of osseoinduction via alloplastic osteosynthesis system after ablative surgery in the mandible

INF

Infrastructure Support Project

A02

Multi-scale models for studies on electrically active implants in due consideration of uncertainties in the input data

B02

Transformation of mechanical energy as internal energy source for electrically active implants

C02

Electrical and mechanical stimulation of hyaline cartilage: Characterisation of biological response and different stimulation parameters

S01

Improving metrology and instrumentation of electrostimulation experiment

A03

AC-electrostimulation of cells on functionalised and laterally structured material surfaces – cell signalling aspects

B03

Modelling and design of ultra low power implants for closed loop stimulation

C03

Deep brain stimulation in dystonia models: Biological implementation, definition of optimal stimulation parameters, and analysis of mechanisms

Z

Central Tasks of the Collaborative Research Centre

A04

Electrically conductive multilayers for implant surfaces

C04

Interactive effects of deep brain stimulation in the subthalamic nucleus on dopaminergic plasticity and neurogenesis in a genetic rat model of Parkinson’s disease: From non-motor impact to biomarker development

IRTG

Integrated Research Training Group

A05

Dielectric evaluation of cellular and interfacial characteristics for electrical stimulation

B05

Assessment of the mechanical reliability of electrically active, porous and functionally graded implant structures by local damage approach

A06

Mathematical modelling and analysis of parameter dependent behaviour of multiscale systems

B06

Signal processing for modelling and in situ monitoring of electrically active implants

B07

Numerical analysis of periprosthetic bone quality and density assessment