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WFUMB GUIDELINES AND RECOMMENDATIONS FOR CLINICAL USE OF ULTRASOUND ELASTOGRAPHY: PART 1: BASIC PRINCIPLES AND TERMINOLOGY 期刊论文 WOS高被引论文

编号：

d7175777-fd3b-421b-8571-c9b6c6053314
作者：

Shiina, Tsuyoshi^[1];Nightingale, Kathryn R.^[2];Palmeri, Mark L.^[2];Hall, Timothy J.^[3];Bamber, Jeffrey C.^[4,5,6];Barr, Richard G.^[7];Castera, Laurent^[8];Choi, Byung Ihn^[9];Chou, YiHong^[10,11];Cosgrove, David^[12,13];Dietrich, Christoph F.^[14];Ding, Hong(丁红)^[15]Amy, Dominique^[16];Farrokh, Andre^[17];Ferraioli, Giovanna^[18];Filice, Carlo^[18];FriedrichRust, Mireen^[19];Nakashima, Kazutaka^[20];Schafer, Fritz^[21];Sporea, Ioan^[22];Suzuki, Shinichi^[23];Wilson, Stephanie^[24];Kudo, Masatoshi^[25];
语种：

英文
期刊：

ULTRASOUND IN MEDICINE AND BIOLOGY ISSN：0301-5629 2015 年 41 卷 5 期 (1126 - 1147) ; MAY
收录：
关键词：

ultrasonography elasticity stiffness elastogram elastography strain shear wave acoustic radiation force transient elastography
摘要：

Conventional diagnostic ultrasound images of the anatomy (as opposed to blood flow) reveal differences in the acoustic properties of soft tissues (mainly echogenicity but also, to some extent, attenuation), whereas ultrasound-based elasticity images are able to reveal the differences in the elastic properties of soft tissues (e.g., elasticity and viscosity). The benefit of elasticity imaging lies in the fact that many soft tissues can share similar ultrasonic echogenicities but may have different mechanical properties that can be used to clearly visualize normal anatomy and delineate pathologic lesions. Typically, all elasticity measurement and imaging methods introduce a mechanical excitation and monitor the resulting tissue response. Some of the most widely available commercial elasticity imaging methods are 'quasi-static' and use external tissue compression to generate images of the resulting tissue strain (or deformation). In addition, many manufacturers now provide shear wave imaging and measurement methods, which deliver stiffness images based upon the shear wave propagation speed. The goal of this review is to describe the fundamental physics and the associated terminology underlying these technologies. We have included a questions and answers section, an extensive appendix, and a glossary of terms in this manuscript. We have also endeavored to ensure that the terminology and descriptions, although not identical, are broadly compatible across the WFUMB and EFSUMB sets of guidelines on elastography (Bamber et al. 2013; Cosgrove et al. 2013). (C) 2015 Published by Elsevier Inc. on behalf of World Federation for Ultrasound in Medicine & Biology.
推荐引用方式
GB/T 7714：

Shiina Tsuyoshi,Nightingale Kathryn R.,Palmeri Mark L., et al. WFUMB GUIDELINES AND RECOMMENDATIONS FOR CLINICAL USE OF ULTRASOUND ELASTOGRAPHY: PART 1: BASIC PRINCIPLES AND TERMINOLOGY [J].ULTRASOUND IN MEDICINE AND BIOLOGY,2015,41(5):1126-1147.
APA：

Shiina Tsuyoshi,Nightingale Kathryn R.,Palmeri Mark L.,Hall Timothy J.,&Kudo Masatoshi.(2015).WFUMB GUIDELINES AND RECOMMENDATIONS FOR CLINICAL USE OF ULTRASOUND ELASTOGRAPHY: PART 1: BASIC PRINCIPLES AND TERMINOLOGY .ULTRASOUND IN MEDICINE AND BIOLOGY,41(5):1126-1147.
MLA：

Shiina Tsuyoshi, et al. "WFUMB GUIDELINES AND RECOMMENDATIONS FOR CLINICAL USE OF ULTRASOUND ELASTOGRAPHY: PART 1: BASIC PRINCIPLES AND TERMINOLOGY" .ULTRASOUND IN MEDICINE AND BIOLOGY 41,5(2015):1126-1147.

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