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Addressing superbug resistance with Phage therapy

Date:
August 16, 2017
Source:
Monash University
Summary:
International research shows that bacteriophage therapy -- a process whereby bacterial viruses attack and destroy specific strains of bacteria -- can be used successfully to treat systemic, multidrug resistant bacterial infections.
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International research involving a Monash biologist shows that bacteriophage therapy -- a process whereby bacterial viruses attack and destroy specific strains of bacteria -- can be used successfully to treat systemic, multidrug resistant bacterial infections.

The latest research, published in Antimicrobial Agents & Chemotherapeutics has wide implications for antibiotic resistance, which the World Health Organization has described as a major threat to public health.

One of the study's authors, Dr Jeremy Barr from the Monash School of Biological Sciences, said that Antibiotics can no longer be solely relied upon to halt the spread of antibiotic-resistant bacterial infections.

"Last year we saw a patient die in the USA from a bacterial infection resistant to all antibiotics. 'Pan-resistant' strains of bacterial infection are inevitable," Dr Barr said.

Dr Barr's lab at Monash University studies bacteriophage -- specialist viruses that only infect and kill bacteria -- and investigates their role and function in the human body.

Bacteriophage (or phage for short) are the most abundant and diverse microbe found in the body. Phages control and manipulate bacterial populations, prevent infection and disease and have important roles in regulating the microbiome and body that have not yet been fully elucidated.

The latest research, published in the prestigious Antimicrobial Agents & Chemotherapeutics, follows the remarkable case of a 69-year-old diabetic in the US who was treated successfully with bacteriophages after being infected with a life-threatening multidrug-resistant strain of Acinetobacter baumannii.

The study is significant because it is the first time bacteriophage therapy has been used in the USA to treat a patient who had an antibiotic-resistant, blood stream infection.

"Antibiotics were no longer working, and this infection would have very likely killed him had we not intervened."


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Materials provided by Monash University. Note: Content may be edited for style and length.


Journal Reference:

  1. Robert T. Schooley, Biswajit Biswas, Jason J. Gill, Adriana Hernandez-Morales, Jacob Lancaster, Lauren Lessor, Jeremy J. Barr, Sharon L. Reed, Forest Rohwer, Sean Benler, Anca M. Segall, Randy Taplitz, Davey M. Smith, Kim Kerr, Monika Kumaraswamy, Victor Nizet, Leo Lin, Melanie D. McCauley, Steffanie A. Strathdee, Constance A. Benson, Robert K. Pope, Brian M. Leroux, Andrew C. Picel, Alfred J. Mateczun, Katherine E. Cilwa, James M. Regeimbal, Luis A. Estrella, David M. Wolfe, Matthew S. Henry, Javier Quinones, Scott Salka, Kimberly A. Bishop-Lilly, Ry Young, Theron Hamilton. Development and use of personalized bacteriophage-based therapeutic cocktails to treat a patient with a disseminated resistant Acinetobacter baumannii infection. Antimicrobial Agents and Chemotherapy, 2017; AAC.00954-17 DOI: 10.1128/AAC.00954-17

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Monash University. "Addressing superbug resistance with Phage therapy." ScienceDaily. ScienceDaily, 16 August 2017. <www.sciencedaily.com/releases/2017/08/170816100302.htm>.
Monash University. (2017, August 16). Addressing superbug resistance with Phage therapy. ScienceDaily. Retrieved February 28, 2024 from www.sciencedaily.com/releases/2017/08/170816100302.htm
Monash University. "Addressing superbug resistance with Phage therapy." ScienceDaily. www.sciencedaily.com/releases/2017/08/170816100302.htm (accessed February 28, 2024).

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