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Electrical impedance modelling for implants

Neuromodulation implant stimulation and control is currently limited by the impedance of the surrounding tissue. The aim is to develop a 3D FEM computer model and an agar gel based more...

Supervisor(s): McEwan, Alistair (Professor)

Surface modification of biomaterials for orthopaedic applications

This project will establish that our novel modified calcium silicate materials have enhanced bioactivity and osseointegration properties for coatings onto orthopaedic implants. more...

Supervisor(s): Zreiqat, Hala (Professor)

Implant electrode optimisation and neurolinguistics

The benefit provided by additional electrodes in medical implants is currently unknown. A typical cochlear implant only contains 12-22 electrodes to stimulate about 30,000 more...

Supervisor(s): McEwan, Alistair (Professor)

Atomic structure, assembly, interactions and engineering of functional amyloids

This project aims to engineer hydrophobins for a range of biotechnological applications from coating of medical implants to formulation of drug delivery vehicles. The work includes more...

Supervisor(s): Kwan, Ann (Dr)

Implantable Medical Devices

The ability to attach functional proteins, antibodies and enzymes to surfaces underpins the development of the next generation of implantable medical devices, biosensors and protein more...

Supervisor(s): Bilek, Marcela (Professor)

Subdivided electrodes to improve defibrillators and physiological measurements

Current defibrillators and physiological monitors (EEG, ECG etc) are limited by variations in contact impedance. This makes measurements difficult during movement of the subjec more...

Supervisor(s): McEwan, Alistair (Professor)

Naturally good - fibres and particles of natural origin as a new biomaterials for regenerative medicine and drug delivery

This project will investigate characteristics of new materials of natural-origin for biomedical applications and drug delivery. The primary aim is to develop new ‘green’ more...

Supervisor(s): Chrzanowski, Wojciech (Dr)

Strategies for Building Bone

This project will investigate the use of biological agents in stimulating bone growth and inhibiting bone resorption. more...

Supervisor(s): Zreiqat, Hala (Professor)

Scaffolds for skeletal tissue regeneration

This project will modify calcium silicate ceramic scaffolds with divalent cations to improve their mechanical, osteoinductive and osteoconductive properties for bone regeneration. more...

Supervisor(s): Zreiqat, Hala (Professor)

Role of S100A8 and S100A9 in osteoarthritis

This projects involves the development of novel scaffolds and biomaterials for bone and cartilage regeneration. more...

Supervisor(s): Zreiqat, Hala (Professor)