Teaching
Experimental Methods
Biomedical Engineering
Biomechanics
Modules for 2024-25
BIOMEDICAL ENGINEERING
Module code: MECH305
Role: Module Co-ordinator
Bioengineering
Module code: ENGG305
Role: Module Co-ordinator
CARDIOVASCULAR BIOENGINEERING
Module code: ENGG311
Role: Module Co-ordinator
Cardiovascular Physiology and Mechanics
Module code: ENGG415
Role: Module Co-ordinator
Experimental Methods for Biomaterials: Design and Data Analysis
Module code: ENGG461
Role: Module Co-ordinator
Experimental Methods in Biomaterials: Practical Skills and Laboratory Techniques
Module code: MATS423
Role: Module Co-ordinator
MATERIALS PROCESSING AND SELECTION
Module code: MATS520
Role: Teaching
MSC(ENG) PROJECT (60 CREDITS)
Module code: ENGG660
Role: Teaching
MUSCULOSKELETAL BIOMECHANICS
Module code: ENGG410
Role: Teaching
Research Skills and Project Planning
Module code: ENGG462
Role: Module Co-ordinator
SMART MATERIALS
Module code: MATS515
Role: Teaching
STRUCTURAL BIOMATERIALS
Module code: MATS410
Role: Teaching
Structural Biomaterials
Module code: MATS413
Role: Teaching
TECHNICAL WRITING FOR ENGINEERS
Module code: ENGG596
Role: Teaching
TECHNICAL WRITING FOR ENGINEERS
Module code: ENGG595
Role: Teaching
TISSUE ENGINEERING
Module code: ENGG412
Role: Teaching
Supervised Theses
- Additive Manufacturing for Patient-specific Facial Prosthetics
- Biomechanics and biochemistry of the aorta in chronic aortic dissection
- Biomechanics of the ageing human knee
- Characterisation of Warm Asphalt Mixtures with Addition of Reclaimed Asphalt Pavement Materials
- Enzymatic degradation of the cornea to develop an experimental model for keratoconus : biomechanical and optical characterisation
- Enzymatic degradation of the cornea to develop an experimental model for keratoconus: Biomechanical and optical characterisation
- Multi-scale Structural and Mechanical Investigations on Diseased Mineralised Tissues
- Nanoscale characterisation of arterial stiffening
- Nanoscale characterisation of arterial stiffening
- The Evaluation of Microneedle Performance on a Representative In Vitro Skin Model
- The Role of Proteoglycans in the Ultrastructure and Mechanical Properties of the Sclera