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Needle bevel geometry influences the flexural deflection magnitude in ultrasound-enhanced fine-needle biopsy

It has been recently demonstrated that use of ultrasound increases the tissue yield in ultrasound-enhanced fine-needle aspiration biopsy (USeFNAB) as compared to conventional fine-needle aspiration biopsy (FNAB). To date, the association between bevel geometry and needle tip action has not been widely explored. In this study, we studied the needle resonance characteristics and deflection magnitude of various needle bevel geometries with varying bevel lengths. With a conventional lancet, having a 3.9 mm long bevel, the tip deflection efficiency in air and water was 220 and 105 micrometres per Watt, respectively. This was higher in comparison to an axi-symmetric tip, having a bevel length of 4 mm, which achieved a deflection efficiency of 180 and 80 micrometres per Watt in air and water, respectively. This study emphasised the importance of relationship between flexural modulus of bevel geometry in the context of various insertion media and, thus, could provide understanding on approaches to control post-puncture cutting action by modifying the needle bevel geometry, essential for the USeFNAB application.

preprint2022arXivOpen access
Saif BunniHeikki J. Nieminen
physics.app-phphysics.med-ph
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Saif BunniHeikki J. Nieminen

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