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CSIRO study finds antimicrobial resistance is making UTIs more deadly

CSIRO

Antimicrobial resistance (AMR) occurs when bacteria and other microbes become resistant to the drugs designed to kill them, generally through misuse or overuse of the drugs.

There are two ways resistant bacteria can be passed between humans: hospital transmission and community transmission. Hospital acquired resistance is well researched, but this study is one of the few that looks at the burden of community transmission.

The study, a collaboration between CSIRO, QUT and the University of Queensland, analysed data from 21,268 patients across 134 Queensland hospitals who acquired their infections in the community.

It found patients were almost two and a half (2.43) times more likely to die from community acquired drug-resistant UTIs caused by Pseudomonas aeruginosa and more than three (3.28) times more likely to die from community acquired drug-resistant blood stream infections caused by Enterobacteriaceae than those with drug-sensitive infections.

CSIRO research scientist, Dr Teresa Wozniak, said the high prevalence of UTIs make them a major contributor to antibiotic use in Australia.

“Our study found patients who contracted drug-resistant UTIs in the community were more than twice as likely to die from the infection in hospital than those without resistant bacteria,” Dr Wozniak said.

“Without effective antibiotics, many standard medical procedures and life-saving surgeries will becoming increasingly life-threatening.

“Tracking the burden of drug-resistant infections in the community is critical to understanding how far antimicrobial resistance is spreading and how best to mitigate it.”

The study’s findings will provide further guidance for managing AMR in the community, such as developing AMR stewardship programs that draw on data from the population being treated.

CEO of CSIRO’s Australian e-Health Research Centre, Dr David Hansen, said the magnitude of the AMR problem needs to be understood to mitigate it.

“Tracking community resistance is difficult because it involves not just one pathogen or disease but multiple strains of bacteria,” Dr Hansen said.

“Until now we haven’t been using the best data to support decision making in our fight against AMR. Data on community acquired resistance is a significant missing piece of the puzzle.

“Digital health has an important role in using big data sets to describe patterns of disease and drive important population health outcomes.”

CSIRO is conducting further research to understand the clinical implications of AMR, its health and economic burden, and improving surveillance of AMR in blind spots like rural and remote communities.

The paper, ‘‘, was published in Open Forum Infectious Diseases in March 2022.

Simple ways you can help reduce AMR

  1. Wash your hands: Bacteria live on skin and on objects. Good hand hygiene is an inexpensive and simple way to prevent all types of bacteria, including AMR bacteria, from spreading.
  2. Keep your environment clean: This doesn’t just apply to places like hospitals. Keeping the home clean – and even taking your shoes off before you walk inside – can help reduce the spread of harmful bacteria from the environment.
  3. Use good food preparation hygiene: Wash your fruits and vegetables thoroughly. Food is often exposed to bacteria via transportation, packaging and presentation. You can reduce the risk of ingesting resistant bacteria someone may have left on your apple when they touched it in the store by washing it before eating.
  4. Don’t misuse antibiotics and properly dispose of unused antibiotics: Take antibiotics only when appropriate and necessary. Follow the instructions on the packet. Don’t use other people’s antibiotics. If you have any antibiotics left over, do not put them in the bin or the drain. Instead, dispose of them at your local pharmacy.

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