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Ultrasonic characterization of materials with applications in bone tissue modelling

Friday, 20 May, 2011 - 15:00
Campus: Brussels Humanities, Sciences & Engineering campus
D
0.08
Roberto Longo
phd defence

This work is situated in the field of material properties identification using a frequency
domain approach, with specific biomedical applications for characterization of bones tissues.
The used of ultrasonic waves is justified by their non-ionizing behaviour, moreover they are
cheap, easy to generate and to detect. For all these reasons they could offer a good alternative
in bone health assessment, where X- Rays are still widely used. A typical case is the “bone
aging” exam, where several children are subjected to X-Ray measurements in order to
monitor the bone growth through the years.
In this doctoral research we aim to offer a technique based on ultrasonic waves that could be
used for the bone age test. Hence, we started performing transmission measurements over
homogeneous and porous materials using water–resistant plane transducers. The interaction
between ultrasonic waves and these materials is explained with the help of acoustics wave
fronts visualizations by means of Laser Doppler Vibrometer (LDV) measurements. The
modelling technique, the identification algorithm, and the signal processing used during the
test allowed one to estimate at the same time density, speed of sound, thickness and
attenuation coefficient of the material under test. Eventually we adapted this technique for the
study in vitro of bovine and human bones. For the latter, we introduced a method based on
focused transducers, able to deal with the small surface offered by the test sample.

Attachment: 
PDF icon Longo_a.pdfPDF icon Longo_i.pdf