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Quantifying Micro-mechanical Properties of Soft Biological Tissues with Scanning Acoustic Microscopy

  • Multiscale Mechanics of Hierarchical Biological, Bioinspired, and Biomedical Materials
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Abstract

In this study we have established a new approach to more accurately map acoustic wave speed (which is a measure of stiffness) within soft biological tissues at micrometer length scales using scanning acoustic microscopy. By using thin (5 μm thick) histological sections of human skin and porcine cartilage, this method exploits the phase information preserved in the interference between acoustic waves reflected from the substrate surface as well as internal reflections from the acoustic lens. A stack of images were taken with the focus point of acoustic lens positioned at or above the substrate surface, and processed pixel by pixel using custom software developed with LABVIEW and IMAQ (National Instruments) to extract phase information. Scanning parameters, such as acoustic wave frequency and gate position were optimized to get reasonable phase and lateral resolution. The contribution from substrate inclination or uneven scanning surface was removed prior to further processing. The wave attenuation was also obtained from these images.

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Authors and Affiliations

  1. School of Materials, the University of Manchester, Manchester, M1 7HS, United Kingdom

    Xuegen Zhao, Steven Wilkinson, Riaz Akhtar & Brian Derby

  2. School of Biomedicine, Faculty of Medical and Human Sciences, The University of Manchester, Manchester, M13 9PT, United Kingdom

    Riaz Akhtar & Michael J. Sherratt

  3. Dermatological Sciences Research Group, Faculty of Medical and Human Sciences, The University of Manchester, Manchester, M13 9PT, United Kingdom

    Rachel E. B. Watson

Authors
  1. Xuegen Zhao
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  2. Steven Wilkinson
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  3. Riaz Akhtar
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  4. Michael J. Sherratt
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  5. Rachel E. B. Watson
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  6. Brian Derby
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Zhao, X., Wilkinson, S., Akhtar, R. et al. Quantifying Micro-mechanical Properties of Soft Biological Tissues with Scanning Acoustic Microscopy. MRS Online Proceedings Library 1301, 181–186 (2011). https://doi.org/10.1557/opl.2011.572

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  • DOI: https://doi.org/10.1557/opl.2011.572

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