Breakthrough in fighting Legionnaires’ – NewsA new study of domestic and hospital drinking water systems found Legionella in 41% of samples ...
Published on by Water Network Research, Official research team of The Water Network
A new study of domestic and hospital drinking water systems found Legionella in 41% of samples – with Flinders University researchers making a key connection between the pathogen’s co-existence with a ‘host’ microorganism in all samples tested.
The Flinders University study found Legionella bacteria “infect the amoeba host and then once inside these hosts are protected from disinfection strategies,” says Associate Professor of Environmental Health Harriet Whiley, a co-author of the new journal article in Water Research.
Researchers tested for Legionella and its likely amoebae hosts in 140 samples of water or biofilm (the slime found on showerheads and end of faucets) to understand how the potentially dangerous bacterium colonises and proliferates in both domestic and hospital plumbing and poses a threat to human health.
Legionnaires’ disease is a severe pneumonia-like infection that can be fatal. Globally the number of Legionnaires’ disease cases is increasing, with elderly and immunocompromised people at the highest risk.
“It is vital that we strive to improve the management of our water distribution systems, particularly in high risk setting such as hospitals, to protect vulnerable populations,” says Associate Professor Whiley, from the Flinders College of Science and Engineering.
“Having a better understanding of the relationships between these amoebae and Legionella is an important step in improving future water treatment processes aimed at controlling Legionella and preventing Legionnaires disease.”
L. pneumophilia is the main cause of Legionnaires’ disease and is not transmitted from person to person but caused by inhalation or aspiration of contaminated water.
Light microscopic images of trophozoites (active form; image A, B and D) and cysts (dormant form; image: C and D circular in shape) of Acanthamoeba (image A, B and C) and Vermamoeba vermiformis (image D) shown at 100 times magnification.
Maintenance and monitoring of water systems is a common preventive step to reduce public risk.
“To our knowledge, this is the first time the amoebae Allovahlkampfia and Stenamoeba have been demonstrated as hosts of L. pneumophila in Australian drinking water,” says Flinders University PhD candidate Muhammad Atif Nisar, who conducted the study.
The findings support the need further research to investigate the prevalence of Legionella as well as free-living amoebae in domestic and commercial water systems and to improve guidelines to better control water systems and safeguard the public health.
Attached link
https://news.flinders.edu.au/blog/2023/01/17/breakthrough-in-fighting-legionnairesTaxonomy
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