Literature DB >> 17698282

In vivo assessment of myocardial stiffness with acoustic radiation force impulse imaging.

Stephen J Hsu1, Richard R Bouchard, Douglas M Dumont, Patrick D Wolf, Gregg E Trahey.   

Abstract

Acoustic radiation force impulse (ARFI) imaging has been demonstrated to be capable of visualizing variations in local stiffness within soft tissue. Recent advances in ARFI beam sequencing and parallel imaging have shortened acquisition times and lessened transducer heating to a point where ARFI acquisitions can be executed at high frame rates on commercially available diagnostic scanners. In vivo ARFI images were acquired with a linear array placed on an exposed canine heart. The electrocardiogram (ECG) was also recorded. When coregistered with the ECG, ARFI displacement images of the heart reflect the expected myocardial stiffness changes during the cardiac cycle. A radio-frequency ablation was performed on the epicardial surface of the left ventricular free wall, creating a small lesion that did not vary in stiffness during a heartbeat, though continued to move with the rest of the heart. ARFI images showed a hemispherical, stiffer region at the ablation site whose displacement magnitude and temporal variation through the cardiac cycle were less than the surrounding untreated myocardium. Sequences with radiation force pulse amplitudes set to zero were acquired to measure potential cardiac motion artifacts within the ARFI images. The results show promise for real-time cardiac ARFI imaging.

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Year:  2007        PMID: 17698282      PMCID: PMC2117626          DOI: 10.1016/j.ultrasmedbio.2007.05.009

Source DB:  PubMed          Journal:  Ultrasound Med Biol        ISSN: 0301-5629            Impact factor:   2.998


  45 in total

1.  Rapid tracking of small displacements with ultrasound.

Authors:  Gianmarco F Pinton; Jeremy J Dahl; Gregg E Trahey
Journal:  IEEE Trans Ultrason Ferroelectr Freq Control       Date:  2006-06       Impact factor: 2.725

2.  Ultrasonic tracking of acoustic radiation force-induced displacements in homogeneous media.

Authors:  Mark L Palmeri; Stephen A McAleavey; Gregg E Trahey; Kathryn R Nightingale
Journal:  IEEE Trans Ultrason Ferroelectr Freq Control       Date:  2006-07       Impact factor: 2.725

3.  Assessment of left ventricular viscoelastic components based on ventricular harmonic behavior.

Authors:  Arash Kheradvar; Michele Milano; Robert C Gorman; Joseph H Gorman; Morteza Gharib
Journal:  Cardiovasc Eng       Date:  2006-03

4.  Measurements of the anisotropy of ultrasonic attenuation in freshly excised myocardium.

Authors:  Steven L Baldwin; Karen R Marutyan; Min Yang; Kirk D Wallace; Mark R Holland; James G Miller
Journal:  J Acoust Soc Am       Date:  2006-05       Impact factor: 1.840

5.  Noninvasive myocardial strain measurement by speckle tracking echocardiography: validation against sonomicrometry and tagged magnetic resonance imaging.

Authors:  Brage H Amundsen; Thomas Helle-Valle; Thor Edvardsen; Hans Torp; Jonas Crosby; Erik Lyseggen; Asbjørn Støylen; Halfdan Ihlen; João A C Lima; Otto A Smiseth; Stig A Slørdahl
Journal:  J Am Coll Cardiol       Date:  2006-01-26       Impact factor: 24.094

6.  Acoustic radiation force impulse imaging of myocardial radiofrequency ablation: initial in vivo results.

Authors:  Brian J Fahey; Kathryn R Nightingale; Stephen A McAleavey; Mark L Palmeri; Patrick D Wolf; Gregg E Trahey
Journal:  IEEE Trans Ultrason Ferroelectr Freq Control       Date:  2005-04       Impact factor: 2.725

7.  Myocardial strain analysis in acute coronary occlusion: a tool to assess myocardial viability and reperfusion.

Authors:  Erik Lyseggen; Helge Skulstad; Thomas Helle-Valle; Trond Vartdal; Stig Urheim; Stein Inge Rabben; Anders Opdahl; Halfdan Ihlen; Otto A Smiseth
Journal:  Circulation       Date:  2005-12-20       Impact factor: 29.690

8.  Cyclic variation in ultrasonic myocardial integrated backscatter is due to phasic changes in the number of patent myocardial microvessels.

Authors:  Antonio Micari; Marco Pascotto; Ananda R Jayaweera; Jiri Sklenar; N Craig Goodman; Sanjiv Kaul
Journal:  J Ultrasound Med       Date:  2006-08       Impact factor: 2.153

9.  Magnetic resonance imaging assessment of myocardial elastic modulus and viscosity using displacement imaging and phase-contrast velocity mapping.

Authors:  Han Wen; Eric Bennett; Neal Epstein; Jonathan Plehn
Journal:  Magn Reson Med       Date:  2005-09       Impact factor: 4.668

10.  Acoustic radiation force impulse imaging of the abdomen: demonstration of feasibility and utility.

Authors:  Brian J Fahey; Kathryn R Nightingale; Rendon C Nelson; Mark L Palmeri; Gregg E Trahey
Journal:  Ultrasound Med Biol       Date:  2005-09       Impact factor: 2.998
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  51 in total

1.  Acoustic radiation force-based elasticity imaging methods.

Authors:  Mark L Palmeri; Kathryn R Nightingale
Journal:  Interface Focus       Date:  2011-06-08       Impact factor: 3.906

Review 2.  Elastography: modality-specific approaches, clinical applications, and research horizons.

Authors:  Yufei Li; Jess G Snedeker
Journal:  Skeletal Radiol       Date:  2010-03-30       Impact factor: 2.199

3.  AN OVERVIEW OF ELASTOGRAPHY - AN EMERGING BRANCH OF MEDICAL IMAGING.

Authors:  Armen Sarvazyan; Timothy J Hall; Matthew W Urban; Mostafa Fatemi; Salavat R Aglyamov; Brian S Garra
Journal:  Curr Med Imaging Rev       Date:  2011-11

4.  Intracardiac acoustic radiation force impulse imaging: a novel imaging method for intraprocedural evaluation of radiofrequency ablation lesions.

Authors:  Stephanie A Eyerly; Tristram D Bahnson; Jason I Koontz; David P Bradway; Douglas M Dumont; Gregg E Trahey; Patrick D Wolf
Journal:  Heart Rhythm       Date:  2012-07-03       Impact factor: 6.343

5.  Jitter reduction technique for acoustic radiation force impulse microscopy via photoacoustic detection.

Authors:  Bong Jin Kang; Changhan Yoon; Jin Man Park; Jae Youn Hwang; K Kirk Shung
Journal:  Opt Express       Date:  2015-07-27       Impact factor: 3.894

Review 6.  Ultrasound Imaging Techniques for Spatiotemporal Characterization of Composition, Microstructure, and Mechanical Properties in Tissue Engineering.

Authors:  Cheri X Deng; Xiaowei Hong; Jan P Stegemann
Journal:  Tissue Eng Part B Rev       Date:  2016-03-14       Impact factor: 6.389

7.  Image quality, tissue heating, and frame rate trade-offs in acoustic radiation force impulse imaging.

Authors:  Richard R Bouchard; Jeremy J Dahl; Stephen J Hsu; Mark L Palmeri; Gregg E Trahey
Journal:  IEEE Trans Ultrason Ferroelectr Freq Control       Date:  2009-01       Impact factor: 2.725

8.  Viscoelastic properties of normal and infarcted myocardium measured by a multifrequency shear wave method: comparison with pressure-segment length method.

Authors:  Cristina Pislaru; Matthew W Urban; Sorin V Pislaru; Randall R Kinnick; James F Greenleaf
Journal:  Ultrasound Med Biol       Date:  2014-05-06       Impact factor: 2.998

9.  In vivo cardiac, acoustic-radiation-force-driven, shear wave velocimetry.

Authors:  Richard R Bouchard; Stephen J Hsu; Patrick D Wolf; Gregg E Trahey
Journal:  Ultrason Imaging       Date:  2009-07       Impact factor: 1.578

10.  In Vivo Open- and Closed-chest Measurements of Left-Ventricular Myocardial Viscoelasticity using Lamb wave Dispersion Ultrasound Vibrometry (LDUV): A Feasibility Study.

Authors:  Ivan Z Nenadic; Matthew W Urban; Cristina Pislaru; Daniel Escobar; Luiz Vasconcelos; James F Greenleaf
Journal:  Biomed Phys Eng Express       Date:  2018-04-30
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