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Bactericidal effect of ultrasound-responsive microbubbles and sub-inhibitory gentamicin against Pseudomonas aeruginosa biofilms on substrates with differing acoustic impedance

Bactericidal effect of ultrasound-responsive microbubbles and sub-inhibitory gentamicin against Pseudomonas aeruginosa biofilms on substrates with differing acoustic impedance
Bactericidal effect of ultrasound-responsive microbubbles and sub-inhibitory gentamicin against Pseudomonas aeruginosa biofilms on substrates with differing acoustic impedance

The aim of this research was to explore the interaction between ultrasound-activated microbubbles (MBs) and Pseudomonas aeruginosa biofilms, specifically the effects of MB concentration, ultrasound exposure and substrate properties on bactericidal efficacy. Biofilms were grown using a Centre for Disease Control (CDC) bioreactor on polypropylene or stainless-steel coupons as acoustic analogues for soft and hard tissue, respectively. Biofilms were treated with different concentrations of phospholipid-shelled MBs (10 7–10 8 MB/mL), a sub-inhibitory concentration of gentamicin (4 µg/mL) and 1-MHz ultrasound with a continuous or pulsed (100-kHz pulse repetition frequency, 25% duty cycle, 0.5-MPa peak-to-peak pressure) wave. The effect of repeated ultrasound exposure with intervals of either 15- or 60-min was also investigated. With polypropylene coupons, the greatest bactericidal effect was achieved with 2 × 5 min of pulsed ultrasound separated by 60 min and a microbubble concentration of 5 × 10 7 MBs/mL. A 0.76 log (83%) additional reduction in the number of bacteria was achieved compared with the use of an antibiotic alone. With stainless-steel coupons, a 67% (0.46 log) reduction was obtained under the same exposure conditions, possibly due to enhancement of a standing wave field which inhibited MB penetration in the biofilm. These findings demonstrate the importance of treatment parameter selection in antimicrobial applications of MBs and ultrasound in different tissue environments.

Antibiotic, Antimicrobial resistance, Bacteria, Biofilm, Chronic wound, Microbubble, Substrate, Ultrasound
0301-5629
1888-1898
Plazonic, Filip
3b12ec91-76d8-465c-90e4-ae2af8127be1
Lutheryn, Gareth WE
0f75f065-7a98-432e-90c6-89c52f8685ad
Hind, Charlotte
96efa230-9fdf-45ec-9023-1aaef8269b80
Clifford, Melanie
e4ea9bba-9493-415b-a199-6f66c1db57af
Gray, M.
acfde259-9e28-45b0-8ba0-75738a960b75
Stride, Eleanor
c0143e95-81fa-47c8-b9bc-5b4fc319bba6
Glynne-Jones, Peter
6ca3fcbc-14db-4af9-83e2-cf7c8b91ef0d
Hill, Martyn
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Carugo, Dario
cf740d40-75f2-4073-9c6e-6fcf649512ca
Plazonic, Filip
3b12ec91-76d8-465c-90e4-ae2af8127be1
Lutheryn, Gareth WE
0f75f065-7a98-432e-90c6-89c52f8685ad
Hind, Charlotte
96efa230-9fdf-45ec-9023-1aaef8269b80
Clifford, Melanie
e4ea9bba-9493-415b-a199-6f66c1db57af
Gray, M.
acfde259-9e28-45b0-8ba0-75738a960b75
Stride, Eleanor
c0143e95-81fa-47c8-b9bc-5b4fc319bba6
Glynne-Jones, Peter
6ca3fcbc-14db-4af9-83e2-cf7c8b91ef0d
Hill, Martyn
0cda65c8-a70f-476f-b126-d2c4460a253e
Carugo, Dario
cf740d40-75f2-4073-9c6e-6fcf649512ca

Plazonic, Filip, Lutheryn, Gareth WE, Hind, Charlotte, Clifford, Melanie, Gray, M., Stride, Eleanor, Glynne-Jones, Peter, Hill, Martyn and Carugo, Dario (2022) Bactericidal effect of ultrasound-responsive microbubbles and sub-inhibitory gentamicin against Pseudomonas aeruginosa biofilms on substrates with differing acoustic impedance. Ultrasound in Medicine & Biology, 48 (9), 1888-1898. (doi:10.1016/j.ultrasmedbio.2022.05.019).

Record type: Article

Abstract

The aim of this research was to explore the interaction between ultrasound-activated microbubbles (MBs) and Pseudomonas aeruginosa biofilms, specifically the effects of MB concentration, ultrasound exposure and substrate properties on bactericidal efficacy. Biofilms were grown using a Centre for Disease Control (CDC) bioreactor on polypropylene or stainless-steel coupons as acoustic analogues for soft and hard tissue, respectively. Biofilms were treated with different concentrations of phospholipid-shelled MBs (10 7–10 8 MB/mL), a sub-inhibitory concentration of gentamicin (4 µg/mL) and 1-MHz ultrasound with a continuous or pulsed (100-kHz pulse repetition frequency, 25% duty cycle, 0.5-MPa peak-to-peak pressure) wave. The effect of repeated ultrasound exposure with intervals of either 15- or 60-min was also investigated. With polypropylene coupons, the greatest bactericidal effect was achieved with 2 × 5 min of pulsed ultrasound separated by 60 min and a microbubble concentration of 5 × 10 7 MBs/mL. A 0.76 log (83%) additional reduction in the number of bacteria was achieved compared with the use of an antibiotic alone. With stainless-steel coupons, a 67% (0.46 log) reduction was obtained under the same exposure conditions, possibly due to enhancement of a standing wave field which inhibited MB penetration in the biofilm. These findings demonstrate the importance of treatment parameter selection in antimicrobial applications of MBs and ultrasound in different tissue environments.

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Accepted/In Press date: 13 May 2022
e-pub ahead of print date: 5 July 2022
Published date: September 2022
Additional Information: Funding Information: We thank the Engineering and Physical Sciences Research Council (EPSRC)–funded Network for Antimicrobial Resistance and Infection Prevention (NAMRIP, EP/M027260/1) and the ESPRC Programme Grant “Beyond Antibiotics” (EP/V026623/1) for funding this research. Publisher Copyright: © 2022 The Authors
Keywords: Antibiotic, Antimicrobial resistance, Bacteria, Biofilm, Chronic wound, Microbubble, Substrate, Ultrasound
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Identifiers

Local EPrints ID: 468458
URI: http://eprints.soton.ac.uk/id/eprint/468458
DOI: doi:10.1016/j.ultrasmedbio.2022.05.019
ISSN: 0301-5629
PURE UUID: c763d465-3eff-449b-a478-705936439d0b
ORCID for Peter Glynne-Jones: ORCID iD orcid.org/0000-0001-5684-3953
ORCID for Martyn Hill: ORCID iD orcid.org/0000-0001-6448-9448

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Date deposited: 16 Aug 2022 16:32
Last modified: 17 Mar 2024 02:49

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Contributors

Author: Filip Plazonic
Author: Gareth WE Lutheryn
Author: Charlotte Hind
Author: Melanie Clifford
Author: M. Gray
Author: Eleanor Stride
Author: Peter Glynne-Jones ORCID iD
Author: Martyn Hill ORCID iD
Author: Dario Carugo

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