Limiting Pseudomonas aeruginosa Biofilm Formation Using Cold Atmospheric Pressure Plasma
Limiting Pseudomonas aeruginosa Biofilm Formation Using Cold Atmospheric Pressure Plasma
We investigate the ability to disrupt and limit growth biofilms of Pseudomonas aeruginosa using application of cold atmospheric pressure (CAP) plasma. The effect of the bio-film's exposure to a helium (CAP) jet was assessed at varying time points during biofilm maturation. Results showed that the amount of time during biofilm growth that CAP pressure was applied has a crucial role on the ability of biofilms to mature and recover after CAP exposure. Intervention during the early stages of biofilm formation (0-8 h) results in a 4-5-log reduction in viable bacterial cells (measured at 24 h of incubation) relative to untreated biofilms. However, CAP treatment of biofilm at 12 h and above only results in a 2-log reduction in viable cells. This has potentially important implications for future clinical application of CAP to treat infected wounds.
plasma, biofilm, Pseudomonas aeruginosa
269-277
Patenall, Bethany Lee
6307b448-a628-4242-bec2-b7dd2ac7d21a
Hathaway, Hollie
bf667106-3b04-4b7a-b304-6edf11049911
Sedgwick, Adam C.
7329dac0-8976-4885-bbe9-6edb9d1ab017
Thet, Naing T.
ce91e7c9-d39d-431b-bd64-e7e97e9f8541
Williams, George
26810522-92ef-4b61-a766-582bf15be280
Young, Amber E.
958c87a9-e98e-4dc0-9a94-a0cc62896b6f
Allinson, Sarah Louise
ed2052c6-93eb-435e-af2a-1c9c1950ace1
Short, Robert D.
cf0e8818-206d-4abd-ba31-b0c3d870d626
Jenkins, A. Toby A.
e0e4ebe3-c2d6-4aae-81eb-66923f6f98dd
2018
Patenall, Bethany Lee
6307b448-a628-4242-bec2-b7dd2ac7d21a
Hathaway, Hollie
bf667106-3b04-4b7a-b304-6edf11049911
Sedgwick, Adam C.
7329dac0-8976-4885-bbe9-6edb9d1ab017
Thet, Naing T.
ce91e7c9-d39d-431b-bd64-e7e97e9f8541
Williams, George
26810522-92ef-4b61-a766-582bf15be280
Young, Amber E.
958c87a9-e98e-4dc0-9a94-a0cc62896b6f
Allinson, Sarah Louise
ed2052c6-93eb-435e-af2a-1c9c1950ace1
Short, Robert D.
cf0e8818-206d-4abd-ba31-b0c3d870d626
Jenkins, A. Toby A.
e0e4ebe3-c2d6-4aae-81eb-66923f6f98dd
Patenall, Bethany Lee, Hathaway, Hollie, Sedgwick, Adam C., Thet, Naing T., Williams, George, Young, Amber E., Allinson, Sarah Louise, Short, Robert D. and Jenkins, A. Toby A.
(2018)
Limiting Pseudomonas aeruginosa Biofilm Formation Using Cold Atmospheric Pressure Plasma.
Plasma Medicine, 8 (3), .
(doi:10.1615/PlasmaMed.2018028325).
Abstract
We investigate the ability to disrupt and limit growth biofilms of Pseudomonas aeruginosa using application of cold atmospheric pressure (CAP) plasma. The effect of the bio-film's exposure to a helium (CAP) jet was assessed at varying time points during biofilm maturation. Results showed that the amount of time during biofilm growth that CAP pressure was applied has a crucial role on the ability of biofilms to mature and recover after CAP exposure. Intervention during the early stages of biofilm formation (0-8 h) results in a 4-5-log reduction in viable bacterial cells (measured at 24 h of incubation) relative to untreated biofilms. However, CAP treatment of biofilm at 12 h and above only results in a 2-log reduction in viable cells. This has potentially important implications for future clinical application of CAP to treat infected wounds.
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Published date: 2018
Keywords:
plasma, biofilm, Pseudomonas aeruginosa
Identifiers
Local EPrints ID: 479315
URI: http://eprints.soton.ac.uk/id/eprint/479315
ISSN: 1947-5764
PURE UUID: 8d4b671b-b9bc-4e76-a03f-d2052d5b4932
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Date deposited: 20 Jul 2023 16:55
Last modified: 17 Mar 2024 04:17
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Contributors
Author:
Bethany Lee Patenall
Author:
Hollie Hathaway
Author:
Adam C. Sedgwick
Author:
Naing T. Thet
Author:
George Williams
Author:
Amber E. Young
Author:
Sarah Louise Allinson
Author:
Robert D. Short
Author:
A. Toby A. Jenkins
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