H. Ponnekanti scite author profile

We describe a new method for quantitative imaging of strain and elastic modulus distributions in soft tissues. The method is based on external tissue compression, with subsequent computation of the strain profile along the transducer axis, which is derived from cross-correlation analysis of pre- and post-compression A-line pairs. The strain profile can then be converted to an elastic modulus profile by measuring the stresses applied by the compressing device and applying certain corrections for the nonuniform stress field. We report initial results of several phantom and excised animal tissue experiments which demonstrate the ability of this technique to quantitatively image strain and elastic modulus distributions with good resolution, sensitivity and with diminished speckle. We discuss several potential clinical uses of this technique.

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Elastography: Ultrasonic imaging of tissue strain and elastic modulus in vivo

Ophir¹,

Céspedes²,

Garra

et al. 1996

European Journal of Ultrasound

267

143

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Elastography: Elasticity Imaging Using Ultrasound with Application to Muscle and Breast in Vivo

Céspedes¹,

Ophir²,

Ponnekanti³

et al. 1993

Ultrason Imaging

263

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Changes in tissue elasticity are generally correlated with its pathological state. In many cases, despite the difference in elasticity, the small size of a lesion or its location deep in the body preclude its detection by palpation. In general, such a lesion may or may not possess echogenic properties that would make it ultrasonically detectable. Elastography is an ultrasonic method for imaging the elasticity of compliant tissues. The method estimates the local longitudinal strain of tissue elements by ultrasonically assessing the one dimensional local displacements. This information can be combined with first order theoretical estimates of the local stress to yield a quantitative measure of the local elastic properties of tissue. The elasticity information is displayed in the form of a gray scale image called an elastogram. An experimental system for elastography in phantoms based on a single element transducer has been described previously [1]. Here we introduce a new elastography system based on a linear array transducer that is suitable for in vivo scanning. We describe tissue mimicking phantom experiments and preliminary in vivo breast and muscle elastograms confirming the feasibility of performing elastography in vivo. An elastogram of a breast containing an 8 mm palpable cancer nodule clearly shows the lesion. Elastograms and their corresponding sonograms show some similarities and differences in the depiction of tissue structures.

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Fundamental mechanical limitations on the visualization of elasticity contrast in elastography

Ponnekanti¹,

Ophir²,

Huang³

et al. 1995

Ultrasound in Medicine & Biology

134

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Fundamental Mechanical Limitations on the Visualization of Elasticity Contrast in Elastography

Ponnekanti¹,

Ophir²,

Huang³

et al. 1996

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H. Ponnekanti

Elastography: A Quantitative Method for Imaging the Elasticity of Biological Tissues

Elastography: Ultrasonic imaging of tissue strain and elastic modulus in vivo

Elastography: Elasticity Imaging Using Ultrasound with Application to Muscle and Breast in Vivo

Fundamental mechanical limitations on the visualization of elasticity contrast in elastography

Fundamental Mechanical Limitations on the Visualization of Elasticity Contrast in Elastography

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