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Literature DB >> 31634828

Scan Parameter Optimization for Histotripsy Treatment of S. Aureus Biofilms on Surgical Mesh.

Timothy A Bigelow, Clayton L Thomas, Huaiqing Wu.

Abstract

There is a critical need to develop new noninvasive therapies to treat bacteria biofilms. Previous studies have demonstrated the effectiveness of cavitation-based ultrasound histotripsy to destroy these biofilms. In this study, the dependence of biofilm destruction on multiple scan parameters was assessed by conducting exposures at different scan speeds (0.3-1.4 beamwidths/s), step sizes (0.25-0.5 beamwidths), and the number of passes of the focus across the mesh (2-6). For each of the exposure conditions, the number of colony-forming units (CFUs) remaining on the mesh was quantified. A regression analysis was then conducted, revealing that the scan speed was the most critical parameter for biofilm destruction. Reducing the number of passes and the scan speed should allow for more efficient biofilm destruction in the future, reducing the treatment time.

Entities: Chemical Disease Mutation Species

Mesh：

Year: 2019 PMID： 31634828 PMCID： PMC7039400 DOI： 10.1109/TUFFC.2019.2948305

Source DB: PubMed Journal: IEEE Trans Ultrason Ferroelectr Freq Control ISSN： 0885-3010 Impact factor: 2.725

54 in total

1. Pulsed cavitational ultrasound therapy for controlled tissue homogenization.

Authors: Jessica E Parsons; Charles A Cain; Gerald D Abrams; J Brian Fowlkes
Journal: Ultrasound Med Biol Date: 2006-01 Impact factor: 2.998

2. A new strategy to enhance cavitational tissue erosion using a high-intensity, Initiating sequence.

Authors: Zhen Xu; J Brian Fowlkes; Charles A Cain
Journal: IEEE Trans Ultrason Ferroelectr Freq Control Date: 2006-08 Impact factor: 2.725

3. Precision control of lesions by high-intensity focused ultrasound cavitation-based histotripsy through varying pulse duration.

Authors: Jin Xu; Timothy A Bigelow; Ravindra Nagaraju
Journal: IEEE Trans Ultrason Ferroelectr Freq Control Date: 2013-07 Impact factor: 2.725

Scan Parameter Optimization for Histotripsy Treatment of S. Aureus Biofilms on Surgical Mesh.

1. Pulsed cavitational ultrasound therapy for controlled tissue homogenization.

2. A new strategy to enhance cavitational tissue erosion using a high-intensity, Initiating sequence.

3. Precision control of lesions by high-intensity focused ultrasound cavitation-based histotripsy through varying pulse duration.

4. Impact of High-Intensity Ultrasound on Strength of Surgical Mesh When Treating Biofilm Infections.

Review 5. Risk factors for mesh-related infections after hernia repair surgery: a meta-analysis of cohort studies.

6. Histotripsy Treatment of S. Aureus Biofilms on Surgical Mesh Samples Under Varying Pulse Durations.

7. Noninvasive thrombolysis using histotripsy beyond the intrinsic threshold (microtripsy).

8. Histotripsy beyond the intrinsic cavitation threshold using very short ultrasound pulses: microtripsy.

9. Histotripsy-induced cavitation cloud initiation thresholds in tissues of different mechanical properties.

10. Acoustic characterization of high intensity focused ultrasound fields: a combined measurement and modeling approach.

1. Histotripsy: the first noninvasive, non-ionizing, non-thermal ablation technique based on ultrasound.