Engineering: Fully Funded M2A EngD at Swansea: Novel anti-microbial metallic surfaces

  • Phd
  • Full cost of UK tuition fees, plus a stipend
  • 30 April 2021
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Engineering: Fully Funded M2A EngD Scholarship: Novel anti-microbial metallic surfaces for infection control

Start date: October 2021

Academic supervisor: Dr Rowena Jenkins, Dr Rowan Brown and Dr Thierry Maffeis.
Industrial supervisor: Dr Patrick Dodds

Sponsoring company: Hexigone Inhibitors Ltd

Background:
Worldwide antibiotic use rose by 40% between 2000 and 2010, which combined with international travel and migration has allowed antimicrobial resistant pathogens to spread. There is a global shortage of effective antimicrobial agents, and for some infections there are now no treatments. The UK government’s Review on Antimicrobial Resistance (AMR) has estimated that by 2050, 10 million people a year will die from AMR infections. The impact of AMR will not be seen only in terms of morbidity and mortality but also in the economy with an approximation that if no new antimicrobial treatments are found, then by 2050 the world economy will have lost 7% of its GDP, $100.2 trillion.

Currently, every year in Europe 33,000 people die from infections they have caught whilst in hospital. Infectious diseases are a significant health and economic burden in the UK, also accounting for 7% of deaths and annual costs of £30bn. The shortage of effective antimicrobial treatments has been compounded by the lack of novel agents in development and a lack of alternative strategies to reduce microbial spread. New ways of preventing the spread of antibiotic resistant bacteria especially amongst vulnerable populations, such as those in the healthcare system, could reduce the number of healthcare associated infections and reduce antibiotic usage.

The sponsor company in collaboration with the academics will work to identify effective nano reservoir systems, show the effectiveness at reducing or preventing microbial growth on the surface, and prove the technology can create a reduction in antibiotic resistant bacteria on surfaces. The surfaces need to be highly durable and not cause a reaction to humans upon touch, due to the high usage in a hospital environment.

The student will investigate the properties of the nano reservoir structures and assess their efficacy against antibiotic resistant bacteria (e.g., Staphylococcus aureus and Escherichia coli) by using antibiotic susceptibility methods. They will be expected to work and communicate within a multi-disciplinary team, gathering and analysing data and presenting results where appropriate (e.g., lab group meetings, conferences, reports). They should be enthusiastic about translational research and self-motivated to tackle challenges or seek guidance as and when needed.

Project Aims:
  1. Develop novel nano reservoirs that can be combined effectively with a range of anti-microbial agents.
  2. Determine the most effective coating technique to allow optimal release of antimicrobial agents.
  3. To determine whether a range of clinically relevant antibiotic sensitive and antibiotic resistant strains of bacteria are inhibited by novel surfaces/systems.
  4. To establish which surface/system has the broadest range of activity.
  5. To ascertain how the duration of exposure impacts on the efficacy of the surface/system under consideration.
Swansea University
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Swansea University

Swansea, is a coastal city and county, officially known as the City and County of Swansea in Wales.

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Eligibility

We welcome applications from candidates with a degree (minimum level 2:1) in Chemistry, Physics, Engineering and Biomedical disciplines or equivalent relevant experience that would enable the candidate to fulfil the role.

We would normally expect candidates to have met the University’s English Language requirements (e.g. IELTS 6.5 overall with 5.5+ in each component) by point of application. 

Due to funding restrictions, this scholarship is not open to ‚ÄėInternational‚Äô candidates.

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Benefits

The scholarship covers the full cost of UK tuition fees, plus a tax free stipend of £20,000 p.a. for a period of four years.

Application

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