Characterization of bone using ultrasonic waves and structural borne acoustic waves
Characterization of bone using ultrasonic waves and structural borne acoustic waves
An orthogonally-anisotropic Biot-Johnson-Allard (BJA) model in which the dependences of tortuosity on porosity and angle are determined empirically from acoustic measurements on bone replicas has been developed. Phase velocities and attenuations of the fast and slow waves versus frequency, porosity and angle of propagation have been predicted by using BJA model. The attenuation of the fast wave is below 0.5 Np/m throughout the frequency and propagation angle range. The attenuation of the slow wave is around 1.7 Np/m throughout the frequency and propagation angle range. We also investigated the use of structural borne acoustic wave technique to diagnose the osteoporosis. When normal and osteoporotic bones are subjected to vibration, the resulting detected responses have different shapes, different natural frequencies, and amplitudes. Differences between normal and osteoporotic bones might be the sign of osteoporosis being diagnosed by structural vibration technique.
Aygun, Haydar
cb642ec8-0eb8-4310-adb2-612a1f01abd4
Barlow, Christopher
eed78e4e-5ca2-4ed7-8859-cdfb42b7b048
Yule, Lawrence
87c4d44f-a50a-4ae4-8084-50de55b9a24c
2016
Aygun, Haydar
cb642ec8-0eb8-4310-adb2-612a1f01abd4
Barlow, Christopher
eed78e4e-5ca2-4ed7-8859-cdfb42b7b048
Yule, Lawrence
87c4d44f-a50a-4ae4-8084-50de55b9a24c
Aygun, Haydar, Barlow, Christopher and Yule, Lawrence
(2016)
Characterization of bone using ultrasonic waves and structural borne acoustic waves.
In Bone Abstracts.
vol. 5,
BioScientifica.
1 pp
.
(doi:10.1530/boneabs.5.P32).
Record type:
Conference or Workshop Item
(Paper)
Abstract
An orthogonally-anisotropic Biot-Johnson-Allard (BJA) model in which the dependences of tortuosity on porosity and angle are determined empirically from acoustic measurements on bone replicas has been developed. Phase velocities and attenuations of the fast and slow waves versus frequency, porosity and angle of propagation have been predicted by using BJA model. The attenuation of the fast wave is below 0.5 Np/m throughout the frequency and propagation angle range. The attenuation of the slow wave is around 1.7 Np/m throughout the frequency and propagation angle range. We also investigated the use of structural borne acoustic wave technique to diagnose the osteoporosis. When normal and osteoporotic bones are subjected to vibration, the resulting detected responses have different shapes, different natural frequencies, and amplitudes. Differences between normal and osteoporotic bones might be the sign of osteoporosis being diagnosed by structural vibration technique.
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Published date: 2016
Venue - Dates:
43rd Annual European Calcified Tissue Society Congress, , Rome, Italy, 2016-05-14 - 2016-05-17
Identifiers
Local EPrints ID: 481941
URI: http://eprints.soton.ac.uk/id/eprint/481941
PURE UUID: 79340650-ca0e-4329-b36f-8da64209c069
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Date deposited: 13 Sep 2023 17:20
Last modified: 30 Apr 2024 02:02
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Contributors
Author:
Haydar Aygun
Author:
Christopher Barlow
Author:
Lawrence Yule
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