Exploration of trabecular bone nonlinear elasticity using time-of-flight modulation

Author

Renaud, Guillaume ; Calle, Samuel ; Remenieras, Jean-Pierre ; Defontaine, Marielle

Author_Institution

Lab. Ultrasons Signaux et Instrum., Univ. Francois Rabelais, Tours

Volume

55

Issue

7

fYear

2008

fDate

7/1/2008 12:00:00 AM

Firstpage

1497

Lastpage

1507

Abstract

Bone tissue contains microcracks that may affect its mechanical properties as well as the whole trabecular structure. The relationship between crack density and bone strength is nevertheless poorly understood. Linear ultrasound techniques being almost insensitive to the level of damage, we propose a method to measure acoustic non- linearity in trabecular bone using time-of-flight modulation (TOFM) measurements. Ultrasonic short bursts times-of- flight (TOF) are modulated as a result of nonlinear interaction with a low-frequency (LF) wave in the medium. TOF variations are directly related to elastic modulus variations. Classical and nonclassical nonlinear parameters beta, delta, and alpha can be derived from these measurements. The method was validated in materials with classical, quadratic, nonlinear elasticity. In dense trabecular bone region, TOFM related to classical, quadratic, nonlinear elasticity as a function of the LF pressure exhibits tension-compression asymmetry. The TOFM amplitude measured in dense areas of trabecular bone is almost one order of magnitude higher than in a low-density area, but the linear parameters show much smaller variations: 5% for ultrasound propagation velocity and 100% for broadband ultrasonic attenuation (BUA). In high-density trabecular bone regions, beta depends on the LF pressure amplitude and can reach 400 at 50 kPa.

Keywords

bioacoustics; biomechanics; bone; cracks; elasticity; mechanical strength; nonlinear acoustics; ultrasonic absorption; ultrasonic measurement; ultrasonic propagation; bone strength; bone tissue mechanical properties; bone tissue microcracks; broadband ultrasonic attenuation; classical elasticity; crack density; elastic modulus variations; linear ultrasound techniques; quadratic elasticity; tension-compression asymmetry; time of flight modulation measurements; trabecular bone acoustic nonlinearity; trabecular bone nonlinear elasticity; trabecular structure; ultrasonic pulse TOF modulation; ultrasound propagation velocity; Acoustic measurements; Aerospace materials; Area measurement; Bone tissue; Cancellous bone; Elasticity; Linearity; Mechanical factors; Ultrasonic imaging; Ultrasonic variables measurement; Osteoporosis; Time-of-flight modulation; Calcaneus; Computer Simulation; Elastic Modulus; Elasticity Imaging Techniques; Humans; Image Interpretation, Computer-Assisted; Models, Biological; Nonlinear Dynamics; Phantoms, Imaging; Stress, Mechanical; Ultrasonography;

fLanguage

English

Journal_Title

Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on

Publisher

ieee

ISSN

0885-3010

Type

jour

DOI

10.1109/TUFFC.2008.825

Filename

4559647