Using the Galleria mellonella burn wound and infection model to identify and characterize potential wound probiotics
Using the Galleria mellonella burn wound and infection model to identify and characterize potential wound probiotics
Burn wound infection is the leading cause of mortality among burn wound patients. One of the most commonly isolated bacterial burn wound pathogens is Pseudomonas aeruginosa, a notorious nosocomial multidrug-resistant pathogen. As a consequence of its recalcitrance to frontline antibiotic therapy, there is an urgent need to develop alternative treatment avenues to tackle this pathogen. One potential alternative infection prevention measure is to seed the wound bed with probiotic bacteria. Several species of Lactobacillus, a common commensal bacterium, have been previously reported to display growth inhibition activity against wound pathogens. Various species of this genus have also been shown to augment the wound healing process, which makes it a promising potential therapeutic agent. Due to the complexity of the burn wound trauma and burn wound infection, an in vivo model is required for the development of novel therapeutics. There are multiple in vivo models that are currently available, the most common among them being the murine model. However, mammalian burn wound infection models are logistically challenging, do not lend themselves to screening approaches and come with significant concerns around ethics and animal welfare. Recently, an invertebrate burn wound and infection model using G. mellonella has been established. This model addresses several of the challenges of more advanced animal models, such as affordability, maintenance and reduced ethical concerns. This study validates the capacity of this model to screen for potential wound probiotics by demonstrating that a variety of Lactobacillus spp. can limit P. aeruginosa burn wound infection and improve survival.
Maslova, Evgenia
a1f3f4af-029b-4e29-a9c1-e4400893564e
Osman, Shanga
60a75ba3-8501-4c52-a16a-56fe789fb77b
McCarthy, Ronan R.
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2
23 June 2023
Maslova, Evgenia
a1f3f4af-029b-4e29-a9c1-e4400893564e
Osman, Shanga
60a75ba3-8501-4c52-a16a-56fe789fb77b
McCarthy, Ronan R.
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2
Maslova, Evgenia, Osman, Shanga and McCarthy, Ronan R.
(2023)
Using the Galleria mellonella burn wound and infection model to identify and characterize potential wound probiotics.
Microbiology, 169 (6).
(doi:10.1099/mic.0.001350).
Abstract
Burn wound infection is the leading cause of mortality among burn wound patients. One of the most commonly isolated bacterial burn wound pathogens is Pseudomonas aeruginosa, a notorious nosocomial multidrug-resistant pathogen. As a consequence of its recalcitrance to frontline antibiotic therapy, there is an urgent need to develop alternative treatment avenues to tackle this pathogen. One potential alternative infection prevention measure is to seed the wound bed with probiotic bacteria. Several species of Lactobacillus, a common commensal bacterium, have been previously reported to display growth inhibition activity against wound pathogens. Various species of this genus have also been shown to augment the wound healing process, which makes it a promising potential therapeutic agent. Due to the complexity of the burn wound trauma and burn wound infection, an in vivo model is required for the development of novel therapeutics. There are multiple in vivo models that are currently available, the most common among them being the murine model. However, mammalian burn wound infection models are logistically challenging, do not lend themselves to screening approaches and come with significant concerns around ethics and animal welfare. Recently, an invertebrate burn wound and infection model using G. mellonella has been established. This model addresses several of the challenges of more advanced animal models, such as affordability, maintenance and reduced ethical concerns. This study validates the capacity of this model to screen for potential wound probiotics by demonstrating that a variety of Lactobacillus spp. can limit P. aeruginosa burn wound infection and improve survival.
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Published date: 23 June 2023
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Local EPrints ID: 506171
URI: http://eprints.soton.ac.uk/id/eprint/506171
ISSN: 1350-0872
PURE UUID: 893425a6-f75b-412a-966b-ffd3109aa75b
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Date deposited: 29 Oct 2025 17:42
Last modified: 30 Oct 2025 03:17
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Author:
Evgenia Maslova
Author:
Shanga Osman
Author:
Ronan R. McCarthy
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