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Long jump forward for catching sporting drug cheats


External Sites:
-University of Nottingham
-Rapid Communications in Mass Spectrometry
(Imperial College is not responsible for the content of these external internet sites)

Under strict embargo for 00.01 BST
Thursday 13 October 2005

A new technique could provide a long jump forward in spotting athletes' use of banned substances, according to research published today in the journal Rapid Communications in Mass Spectrometry. The technique will enable sporting drugs officials to distinguish between the presence of naturally occurring human steroids and those that have been synthetically manufactured.

Scientists hope new technique will catch athletes who inject themselves with steroids to improve performance

Although synthetic and naturally occurring steroids are similar, they differ in the ratio of 'heavy' carbon to 'light' carbon they contain. However, measuring this carbon ratio has previously been extremely difficult because the molecules react too aggressively with laboratory instruments to allow accurate analysis.

The new approach, developed by scientists from Imperial College London and the University of Nottingham, allows easy analysis of the carbon ratio. It uses a catalytic reaction to strip steroids of their more aggressive parts whilst leaving the carbon 'skeleton' intact. This technique, called hydropyrolysis, is commonly used to aid oil exploration by freeing small fragments of organic matter from petroleum rock sources.

Dr Mark Sephton Opens in new window, from Imperial's Department of Earth Science and Engineering and lead author of the research, explained: "The type of carbon in the body's molecules reflects the carbon ingested as part of an athlete's diet, and if you can work out the carbon ratio in the molecules you can determine the source of the carbon." 

"Drug cheats should beware. The carbon-based secrets of steroids are now apparent to the analyst. Thanks to our technique, in the future it will be much more difficult to escape detection when using performance-enhancing steroids", he added.

The researchers have so far been working on pure samples of steroid molecules and their next step is to extend the work onto samples taken from the body. The process will be ready for use in the sporting environment once this work has been completed.

-ends-

For further information please contact:

Laura Gallagher
Press Officer
Communications Division
Tel: +44 (0)20 7594 6702
Mobile: +44 (0)7803 886 248
E-mail: l.gallagher@imperial.ac.uk

Notes to editors:

1. "Hydropyrolysis of steroids: a preparative step for compound-specific carbon isotope ratio analysis. 2005" Rapid Communications in Mass Spectrometry, Volume: 19, Pages: 3339-3342.

Rapid Communications in Mass Spectrometry is published by John Wiley & Sons and can be found at www.interscience.wiley.com/journal/rcm

2. Consistently rated in the top three UK university institutions, Imperial College London is a world leading science-based university whose reputation for excellence in teaching and research attracts students (11,000) and staff (6,000) of the highest international quality.
Innovative research at the College explores the interface between science, medicine, engineering and management and delivers practical solutions that enhance the quality of life and the environment - underpinned by a dynamic enterprise culture.
Website: www.imperial.ac.uk

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