http://www.boston.com/news/health/articles/2010/08/12/doctors_warn_of_new_superbug_gene?mode=PF
Threat may be spread by patients treated in India
By Associated Press
LONDON — People traveling to India for medical procedures have brought back to Britain a new gene that allows any bacteria to become a superbug, and scientists are warning this type of drug resistance could soon appear worldwide.
Though already widespread in India, the new superbug gene is being increasingly spotted in Britain and elsewhere.
Specialists warn that the booming medical tourism industries in India and Pakistan could fuel a surge in antibiotic resistance, as patients import dangerous bugs to their home countries.
The superbug gene, which can be swapped between different bacteria to make them resistant to most drugs, has so far been identified in 37 people who returned to the United Kingdom after undergoing surgery in India or Pakistan.
The resistant gene has also been detected in Australia, Canada, the United States, the Netherlands, and Sweden.
The researchers say since many Americans and Europeans travel to India and Pakistan for elective procedures like cosmetic surgery, it was likely the superbug gene would spread worldwide.
In an article published online yesterday in the journal Lancet Infectious Diseases, doctors reported finding a new gene, called NDM-1, that alters bacteria, making them resistant to nearly all known antibiotics.
It has been seen largely in E. coli bacteria, the most common cause of urinary tract infections, and on DNA structures that can be easily copied and passed onto other types of bacteria.
The researchers said the superbug gene appeared to be already circulating widely in India, where the health system is much less likely to identify its presence or have adequate antibiotics to treat patients.
“The potential of NDM-1 to be a worldwide public health problem is great, and coordinated international surveillance is needed,’’ the authors wrote.
Still, the numbers of people who have been identified with the superbug gene remains very small.
“We are potentially at the beginning of another wave of antibiotic resistance, though we still have the power to stop it,’’ said Christopher Thomas, a professor of molecular genetics at the University of Birmingham who was not linked to the study.
Thomas said better surveillance and infection control procedures might halt the gene’s spread.
Thomas said while people checking into British hospitals were unlikely to encounter the superbug gene, they should remain vigilant about standard hygiene measures such as properly washing their hands.
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