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Space technology to hunt down TB

Society Materials 5 October 2007 03:58 (UTC +04:00)

( BBC ) - A device developed for a mission to Mars could help spot signs of life closer to home - by spotting the bacterium that causes TB.

The Open University and London School of Hygiene and Tropical Medicine project will use a tiny detection kit made for the Beagle 2 project.

The gas chromatograph mass spectrometer (GC-MS) can pick out the unique chemical fingerprint of TB.

An expert hoped it would boost the poor diagnosis rate in developing countries.

Space researchers were disappointed by the failure of Beagle 2 - which stopped transmitting after landing on Mars in 2003.

A similar device forms part of the current Rosetta mission, which aims to rendezvous with a comet and send back data on its chemical structure.

The need to minimise its weight has led to a spectrometer the size of a shoebox, which could now be practical to use it in developing countries where TB is rife.

At the moment, phlegm samples coughed up by patients suspected of having the disease are checked under a microscope, but this is unreliable and fails to diagnose up to half the active cases.

Dr Liz Corbett, from the London School of Hygiene and Tropical Medicine, said: "We urgently need an accurate and cost-effective method of diagnosing TB.

"At the moment, because diagnosis is not accurate, people with TB may have to be seen up to 10 times before they can be started on TB treatment. They may be infectious throughout this period."

Dr Geraint Morgan from the Open University said that GC-MS could be a more accurate test, and significantly quicker than current methods.

He said: "The bacterium that causes TB has a special coating and it is the pattern of chemicals in this coating that the mass spectrometer will be searching for."

The Wellcome Trust has provided a Ј1.34 million grant to see if the technology works.

Its Director of Technology Transfer, Dr Ted Bianco, suggested that the device could potentially discriminate between the high numbers of people with latent TB, who simply carry the bacteria without having symptoms or being infectious, and those with "active TB", who can die from it or pass it to others.

"If you can build instruments rugged enough to look for life elsewhere in the Solar System, you should be able to crack the problem of detecting TB bacteria in the lung of a patient."

Dr Peter Davies, secretary of TB Alert, and a member of the diagnostics group of the Stop TB international campaign, welcomed the project.

He said: "We can only diagnose 50% of people using current techniques, so we have got to try any other method of diagnosis that we can.

"This could be a way of improving that low figure, so it's definitely worth a shot."

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