Ultrasonic methods for measurement of small motion and deformation of biological tissues for assessment of viscoelasticity / Hideyuki Hasegawa and Hiroshi Kanai.

Format:

Book

Author/Creator:

Hasegawa, Hideyuki., author.

Kanai, Hiroshi., author.

Series:

Biomedical & nanomedical technologies.

Biomedical and nanomedical technologies

Language:

English

Subjects (All):

Ultrasonics in medicine.

Viscoelasticity--Measurement.

Viscoelasticity.

Tissues--Mechanical properties.

Tissues.

Ultrasonics.

Medical Subjects:

Ultrasonics.

Tissues.

Physical Description:

1 online resource (56 pages) : illustrations

Place of Publication:

New York, [New York] : ASME ; New York, [New York] (222 East 46th Street, New York, NY 10017) : Momentum Press, 2014.

Language Note:

English

Summary:

In this monograph, an accurate ultrasonic method for measurement of small motion and deformation of biological tissue is described. In the displacement estimation based on the phase change of echoes, the displacement estimates are biased when the center frequency of the RF echo changes. Such an apparent change in the center frequency could be caused by the interference of echoes from scatterers. To reduce the influence of the center frequency variation on the estimation of motion and deformation, an error correcting function, which does not require the assumption that the center frequency distributions in 2 different frames are the same, was introduced. As a result, the proposed method provides better strain estimates in comparison with conventional phase-sensitive correlation methods. This monograph also shows examples of applications of this method to measurement of small motion and deformation of biological tissues. This method can be applied to measurement of elasticity of dynamic tissues, such as the artery. Also, elastic properties of static tissues can be also measured by combining with actuation using the acoustic radiation force.

Contents:

Series editors' preface

Abstract

I. Introduction

II. Principles

II-A Measurement of small motion and deformation of tissues by ultrasound

II-B Non-invasive vascular elastography: an application of measurement of small motion and deformation

II-C Actuation of tissue using acoustic radiation force for measurement of mechanical properties

II-D Experimental setup

III. Experimental results

III-A Evaluation of accuracy of the ultrasonic motion estimator and method for estimation of arterial wall elasticity

III-B Measurement of elasticity of the arterial wall

III-C Measurement of small motion of an object induced by acoustic radiation force

IV. Discussion

V. Conclusion

References

About the authors.

Notes:

Bibliographic Level Mode of Issuance: Monograph

Includes bibliographical references (pages 40-45) and index.

Title from PDF title page (viewed on April 24, 2014).

ISBN:

9781606505915

1606505912

OCLC:

878077855