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OPTICAL WAVEGUIDE SENSORS FOR HIGHLY SENSITIVE DETECTION & QUANTIFICATION OF CYTOKINES IN BIOLOGICAL FLUIDS

ReferenceBB/D014476/1
Principal Investigator / Supervisor Dr Tracy Melvin
Co-Investigators /
Co-Supervisors		 Dr Leigh Felton, Emeritus Professor V Hugh Perry, Professor Jessica Teeling, Professor James Wilkinson
Institution University of Southampton
DepartmentOptoelectronics Research Centre
Funding typeResearch
Value (£) 198,985
StatusCompleted
TypeResearch Grant
Start date 01/07/2007
End date 31/12/2008
Duration18 months

Abstract

The detection of low levels of cytokines in biological matrices is currently limiting for a range of research and clinical diagnostic applications. This is particularly true for our studies on the inflammation biology of the nervous system. The limiting factors for our studies are sensitivity, sample size and interference from complex proteins or molecules. Current conventional methods for cytokine detection/quantification include Mass Spectrometry approaches, enzyme linked immunosorbant assays (ELISA) and western blot methods; a detection of cytokines of approximately 3 pg/ml is possible. Here we propose to develop an optical waveguide sensor technology for cytokine detection and quantification. This optical sensor array has been developed recently in the Optoelectronics Research Centre, in collaboration with a number of European academic and industrial groups, for the detection of low levels of environmental pollutants. The detection limit for the pollutant, oestrone, was determined to be 0.1ng/L. We now propose to adapt this array of optical sensors for the detection of cytokines, starting first with IL-6. A number of issues are to be addressed. These include fluidic handling developed for the small volumes in a wide range of biological matrices and creation of the chemistry on the sensors. Our aim is to provide a sensitive, simple assay for the detection of cytokines to provide further evidence for the role of inflammatory proteins in neurological function.

Summary

Cytokines are the proteins in our bodies that are responsible for controlling inflammation. The inflammatory response occurs when we are infected by a bacterial, viral or chemical agent, or damage ourselves from either a burn or a cut. When we are sick we have increased levels of cytokines in our blood. As well as helping the body fight off infection, recover and repair itself, these proteins can act on the brain to cause changes in behaviour, making it more difficult for us to think clearly, make decisions and interact with others. Even very low levels of cytokines in our brain can change our behaviour. For example, a very few molecules of a cytokine can change the way in which a neurone, or a group or neurones, behaves. In order to better understand how cytokines can change our behaviour we must be able to measure them accurately in fluids and tissues of the body, such as blood and the brain. However, the techniques that are currently available to us are very insensitive, and can only detect cytokines when millions of molecules are present at once. Therefore we need to develop more sensitive biological methods for detecting these proteins. Optical waveguide sensors have been developed for the detection of low levels of environmental pollutants; for example, the presence of the female sex hormone, oestrogen, in rivers. These sensors can be reused 400 times and are currently the most sensitive biological sensors available worldwide. It is important to discover whether this technology can be used for the detection of other molecules, particularly low copy numbers of proteins in biological fluids, such as human blood and tissue. Here, we propose to develop these systems for the detection of low levels of cytokines. Creation of this technology will be very valuable for our current research in inflammation biology and neuroscience, and should be of significant value to the pharmaceutical industry and clinic, particularly in the context of clinical diagnositics.
Committee Closed Committee - Engineering & Biological Systems (EBS)
Research TopicsImmunology, Neuroscience and Behaviour, Technology and Methods Development
Research PriorityX – Research Priority information not available
Research Initiative X - not in an Initiative
Funding SchemeX – not Funded via a specific Funding Scheme
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