COMPARISON OF ULTRASOUND ATTENUATION MEASUREMENTS IN CANCELLOUS BONES WITH THE RESULTS OF GS + F THEORY
Abstract and keywords
Abstract (English):
The development of the quantitative ultrasound investigative method of cancellous bones characteristics requires acousto-medical theory development that relates acoustic characteristics of waves to the physical characteristics of the medium, and then to the biological and medical characteristics of the research object. An attempt to apply the theory of GS + F to inverse the qualitative parameters of cancellous bone state from sound velocity measurements and attenuation in a wide frequency band is made in this paper.

Keywords:
phase-velocity dispersion, attenuation coefficirnt, cancellous bone
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References

1. Lee K., Roh H-S., Yoon S. Correlations between acoustic properties and bone density in bovine cancellous bone from 0.5 to 2 MHz. J. Acoust. Soc. Am., 2003, vol. 113, no. 5, pp. 2933-2938.

2. Bossy E., Laugier P., Peyrin F., Padilla F. Attenuation in trabecular bone: A comparison between numerical simulation and experimental results in human femur. J. Acoust. Soc. Am., 2007, vol. 122, no. 4, pp. 2470-2475.

3. Chaffai S., Padilla F., Berger G., Laugier P. In vitro measurement of the frequency-dependent attenuation in cancellous bone between 0.2 and 2 MHz. J. Acoust. Soc. Am., 2000, vol. 108, no. 3, pp. 1281-1289.

4. Biot M.A. Mechanics of deformation and acoustic propagation in porous media. J. Appl. Phys., 1962, vol. 33, no 4, pp. 1482-1498.

5. Buckingham M.J. Wave propagation, stress relaxation, and grain-to-grain shearing in saturated, unconsolidated marine sediments. J. Acoust. Soc. Am., 2000, vol. 108, no. 6, pp. 2796-2815.

6. Lisyutin V.A. Lastovenko O.R. Yaroshenko A.A. Reshenie obobschennogo uravneniya Nav'e-Stoksa dlya mikroneodnorodnoy dvuhfaznoy sredy. Prikladnye zadachi matematiki: materialy XHV mezhdunar. nauchn.-tehn. konf., Sevastopol', 18-22 sent. 2017 g., Sevastopol', 2017, 222 s. [Lisyutin V.A. Lastovenko O.R. Yaroshenko A.A. Applied Mathematical Problems: Materials of XXV International Scientific and Technological Conference. Sevastopol, Sept. 18-22, 2017, Sevastopol, 2017, 222 p. (In Russ.)]

7. Lisyutin V.A. Akustika morskih osadkov. Podklyuchenie mezhgranulyarnogo treniya k teorii Bio-Stolla. Doklady IXX shkoly-seminara im. akad. L.M. Brehovskih. M: GEOS, 2018, c. 229-232. [Lisyutin V.A. Acoustics of marine sediments. Connection of intergranular friction to the theory of Bio-Stoll. Reports of the IXX School-Seminar named after acad. L.M. Brekhovskih, M: GEOS, 2018, pp. 229-232 (In Russ.)]

8. Lee K., Roh H-S., Yoon S. Acoustic wave propagation in bovine cancellous bone: Application of the Modified Biot-Attenborough model. J. Acoust. Soc. Am., 2003, vol. 114, no. 4, pp. 2284-2293.


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