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Biomedical Engineering PhD Projects in Leicester

We have 27 Biomedical Engineering PhD Projects in Leicester

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Showing 1 to 10 of 27
  Evaluation of Metal Leaching from Implantable Medical Devices
  Dr A Managh, Dr B Cousins
Application Deadline: 28 March 2020
This PhD studentship seeks to apply state-of the art laser ablation technology developed at Loughborough University to improve understanding of heavy metal ions in biomaterials research.
  PhD scholarship for biological applications in multifunctional materials manufacturing
  Dr C Torres-Sanchez
Application Deadline: 14 May 2019
PhD Studentship. Porosity tailored titanium scaffolds for bone engineering. Reference number. CTS2019. Start date of studentship.
  Magnesium alloy implants: corrosion effects on its mechanical performance
  Dr Y Liu
Application Deadline: 1 February 2020
Resorbable metals, including magnesium- and iron-based metal alloy, were investigated intensively as biomaterials for production of orthopaedic implant and stents.
  Microbial Micro-Engineers
  Dr M Mazza
Applications accepted all year round
Microorganisms occupy every crevice within global ecosystems and impact all aspects of life. However, too little is understood about their movement within physical crannies, and how they can restructure these microspaces for their own benefit.
  Engineering Medicine Manufacture Processes for Cell and Stem Cell Based Therapies
  Dr R Thomas
Applications accepted all year round
Cell and Stem Cell based therapies are revolutionising medical treatment. Immunotherapies such as CAR-T cells are effectively treating previously terminal diseases and are poised to reach mass markets.
  The effects of mechanical and electrical stimulation on the maturity of tissue engineered skeletal muscle
  Prof M.P. Lewis, Dr A Capel
Applications accepted all year round
Skeletal muscle undergoes hypertrophy in response to exercise and mechanical loading, however although this response is well studied and established, the molecular sensors and signaling pathways which produce this response are not fully elucidated.
  Towards a Tissue Engineered Model of a Joint on a Chip
  Prof M.P. Lewis, Dr A Capel
Applications accepted all year round
This research project aims to develop a multi-tissue platform that integrates many of the structural tissue components of a musculoskeletal joint; bone, tendon, muscle, cartilage and ligament.
  Using a novel 3D co-culture model to define metabolic flux maps of different cancer cell types in response to physical activity
  Dr M Morris, Dr A Islam, Prof M.P. Lewis
Applications accepted all year round
During exercise, and in the presence of sufficient oxygen, glucose is metabolised by muscle cells to produce pyruvate, a metabolic intermediate which is fed into the Kreb’s cycle in the mitochondria to produce large amounts of energy.
  Vascularisation of tissue engineered skeletal muscle
  Prof M.P. Lewis, Dr A Capel
Applications accepted all year round
Tissue engineering strategies have created a large number of functional tissues constructed from cells and matrix components over the past two decades.
  A multi-tissue in vitro model of osteoarthritis
  Prof M.P. Lewis, Dr D Player
Applications accepted all year round
Osteoarthritis (OA) is a joint disorder which is predominantly found in elderly individuals (Lee et al., 2013), but has recently been linked to sports participation at high levels (Vannini et al., 2016).
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