Title :
Estimation of skin elasticity by measuring surface wave velocity under impulse stimulus using compact optical sensors
Author :
Qiang, Bo ; Zhang, Xiaoming ; Greenleaf, James
Author_Institution :
Coll. of Med., Dept. of Physiol. & Biomed. Eng., Mayo Clinic Coll. of Med., Rochester, MN, USA
Abstract :
Tissue elastography characterizes tissue mechanical properties, which can provide important information for diagnosis. While popular methods track shear wave propagation inside tissue, this paper proposes a method to estimate elasticity by measuring group velocity of the surface Raleigh wave. This method features noncontact, noninvasive and low-cost and have a great potential for clinic applications. By measuring the impulse response of a tissue simulating phantom at multiple points along the direction of surface wave propagation, the group velocity is estimated to be 12.61 m/s, therefore Young´s modulus is 526 kPa. This result is consistent with the results obtained by Continuous Wave (CW) excitation.
Keywords :
Rayleigh waves; Young´s modulus; acoustic wave propagation; biomechanics; biomedical measurement; elastic waves; elasticity; optical sensors; skin; surface acoustic waves; Young´s modulus; clinic applications; compact optical sensors; continuous wave excitation; group velocity; impulse response; impulse stimulus; low-cost method; noncontact method; noninvasive method; skin elasticity; surface Raleigh wave; surface wave propagation; surface wave velocity; tissue elastography; tissue mechanical properties; tissue simulating phantom; track shear wave propagation; Biomedical measurements; Elasticity; Optical interferometry; Optical propagation; Optical sensors; Optical surface waves; Skin; Surface waves; Ultrasonic variables measurement; Velocity measurement; compact sensor; surface wave; tissue elasticity;
Conference_Titel :
Ultrasonics Symposium (IUS), 2009 IEEE International
Conference_Location :
Rome
Print_ISBN :
978-1-4244-4389-5
Electronic_ISBN :
1948-5719
DOI :
10.1109/ULTSYM.2009.5441574
