High-power low-frequency ultrasound: A review of tissue dissection and ablation in medicine and surgery

High-power low-frequency ultrasound in the range 20–60 kHz has wide ranging clinical applications in surgical and medical instruments for biological tissue cutting, ablation or fragmentation, and removal. Despite widespread clinical application and common device operating characteristics, there is a...

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Bibliographic Details
Published in:Journal of materials processing technology 2008-05, Vol.200 (1), p.38-58
Main Authors: O’Daly, Brendan J., Morris, Edmund, Gavin, Graham P., O’Byrne, John M., McGuinness, Garrett B.
Format: Article
Language:English
Subjects:
Ablation
Cutting
Fragmentation
High power
Low frequency
Tissue
Ultrasound
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Summary:High-power low-frequency ultrasound in the range 20–60 kHz has wide ranging clinical applications in surgical and medical instruments for biological tissue cutting, ablation or fragmentation, and removal. Despite widespread clinical application and common device operating characteristics, there is an incomplete understanding of the mechanism of tissue failure, removal and damage. The relative contribution of cavitation, direct mechanical impact and thermal effects to each process for specific tissue types remains unclear. Different and distinct mechanisms and rates of tissue removal are observed for interaction with soft and hard tissue types. Device operating parameters known to affect the interaction include frequency, peak–peak tip amplitude, suction and application time. To date, there has been little analysis of the effect of variations in, and interactions of, these parameters on tissue removal and damage for individual biological tissue types. Potential controllable damage mechanisms occurring in tissues include alteration in global biomechanical properties, histomorphological changes, protein denaturation and tissue necrosis. This paper presents a critical review of the literature on the clinical application, mechanism of tissue interaction, removal and residual tissue damage. It describes known mechanisms for distinct tissue types.
ISSN:0924-0136
DOI:10.1016/j.jmatprotec.2007.11.041