Histotripsy Treatment of S. Aureus Biofilms on Surgical Mesh Samples Under Varying Scan Parameters

Histotripsy Treatment of S. Aureus Biofilms on Surgical Mesh Samples Under Varying Scan Parameters

Cavitation-based ultrasound histotripsy has shown potential for treating infections on surgical mesh. The goal of this paper was to explore a new scan strategy while assessing the impact of scan speed, scan step size, and the number of cycles in the tone burst on the destruction of S. aureus biofilm...

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Veröffentlicht in:IEEE transactions on ultrasonics, ferroelectrics, and frequency control ferroelectrics, and frequency control, 2018-06, Vol.65 (6), p.1017-1024
Hauptverfasser: Bigelow, Timothy A., Thomas, Clayton L., Wu, Huaiqing, Itani, Kamal M. F.
Format: Artikel
Sprache:eng
Schlagworte:
Acoustics
Biofilm infection
Biofilms - radiation effects
Colony Count, Microbial
Equipment Design
Frequency control
High-Intensity Focused Ultrasound Ablation - methods
histotripsy
Microorganisms
Sonication
Staphylococcus aureus - radiation effects
Surgery
Surgical Mesh - microbiology
Transducers
Ultrasonic imaging
ultrasound therapy
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Zusammenfassung:Cavitation-based ultrasound histotripsy has shown potential for treating infections on surgical mesh. The goal of this paper was to explore a new scan strategy while assessing the impact of scan speed, scan step size, and the number of cycles in the tone burst on the destruction of S. aureus biofilms grown on surgical mesh samples using ultrasound histotripsy pulses (150 MPa/-17 MPa). For each exposure, the number of colony forming units (CFUs) on the mesh and released onto the surrounding gel was quantified. Most of the exposed mesh samples had no CFUs, and there was a statistically significant reduction in CFUs on the mesh for each of the exposures, with an average reduction of 3.8 log10 relative to the sham. Compared with the sham, there was also a statistically significant reduction in CFUs on the gel with the highest exposures.
ISSN:0885-3010
1525-8955
1525-8955
DOI:10.1109/TUFFC.2018.2819363