In Vivo Determination of the Complex Elastic Moduli of Cetacean Head Tissue

Abstract

The overall goal of this project is to determine the feasibility of in vivo, non-invasive measurement of the complex elastic moduli of cetacean head tissue. If this objective is met, measurement systems could be developed capable of measuring the complex elastic moduli of the head tissue of live, stranded cetaceans. The technical objective is to remotely generate and detect mid-frequency (1 to 10 kHz) elastic waves within the body of a living cetacean, using ultrasound and to use the measured propagation parameters of these waves to obtain the complex elastic moduli by inversion. A further technical objective is to extract tissue moduli in this manner intracranially. This objective carries considerably more technical risk since both the wave-generating ultrasound and the probe ultrasound will be attenuated, distorted and scattered by the passage through the skull. The approach is to measure the complex shear and bulk modulus, from which all other moduli can be calculated. The shear modulus will be determined by measuring the speed and attenuation of shear waves generated within the tissue using focused ultrasound as a remote localized force generator. This general approach to determining the complex moduli is an application of a new medical imaging technology called elastography. The methods described by Greenleaf (Chen et al, 2002) or Fink (Fink et al, 2004) provide the basis for shear wave generation. Displacements are generated remotely in a tissue volume using two intersecting focused ultrasound beams operating at slightly different frequencies. A local "radiation force" at the focal point generates bulk and shear waves at the beat frequency of the two beams.

Document Details

Document Type

Technical Report

Publication Date

Jan 01, 2007

Accession Number

ADA506764

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