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Infection control processes in hospitals may need updating following the discovery聽of a聽new technique showing how some common disease-causing bacteria can spread up to 4 m, and live for up to 45 minutes.

The simple, well-worn advice for preventing winter colds and flu from spreading 鈥� cover your mouth when sneezing and coughing and wash your hands 鈥� has been strengthened with new research from a team of researchers from Queensland University of Technology and the University of Queensland.

Director of the Professor Lidia Morawska said the research was possibly one of the first to study the longevity of airborne Pseudomonas aeruginosa bacteria, a multidrug-resistant germ associated with hospital-acquired infections, when they are expelled by human coughs and sneezes.

鈥� had found that these pathogens travelled up to 4 m and stayed viable for 45 minutes after being coughed into the air,鈥� Professor Morawska said.

鈥淲e wanted to find out how bacteria-carrying droplets expelled by sneezes or coughs travel such distances and remain able to infect other people after such a long time.

鈥淢ost research in this area to date has focused on laboratory-generated bio-aerosols, or airborne droplets, which are different from natural respiratory droplets generated by humans in composition and mechanisms of production.

鈥淲e developed a novel technique to target the short-term and long-term ageing of bio-aerosols from people, without contamination from the ambient air.

鈥淭o demonstrate the technique, airborne cough droplets were sampled from two patients with cystic fibrosis and chronic Pseudomonas aeruginosa 颈苍蹿别肠迟颈辞苍.鈥�

Professor Morawska said the research team found that the bacteria in the cough droplets from the patients decayed in two different time spans.

鈥淎s soon as cough droplets hit the air they rapidly dry out, cool and become light enough to stay airborne. They also partly degrade through contact with oxygen in the air, with larger droplets taking much longer to evaporate.

鈥淲e found that the concentration of active bacteria in the dried droplets showed rapid decay with a 10-second half-life for most of the bacteria but a subset of bacteria had a half-life of more than 10 minutes,鈥� she said.

鈥淭his suggests some of the Pseudomonas aeruginosa bacteria are resistant to rapid biological decay and thus remain viable in room air long enough to form an airborne infection risk, especially to people with respiratory problems, such as patients with cystic fibrosis.

鈥淲e think this could be because droplets are produced in different parts of the respiratory tract and carry different 鈥榣oads鈥� of bacteria.

鈥淭he larger droplets carrying bacteria take longer to evaporate, which makes them more resistant to decay and able to maintain bacteria viability for extended periods.鈥�

Professor Morawska said the findings had implications for infection control in hospitals and particularly with the treatment of people with cystic fibrosis.

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Originally published