Ultrafast Cardiac Ultrasound Imaging Technical Principles, Applications, and Clinical Benefits

被引:182
作者
Cikes, Maja [1 ,2 ]
Tong, Ling [1 ]
Sutherland, George R. [1 ]
D'hooge, Jan [1 ]
机构
[1] Katholieke Univ Leuven, Lab Cardiovasc Imaging & Dynam, Dept Cardiovasc Sci, Leuven, Belgium
[2] Univ Zagreb, Sch Med, Univ Hosp Ctr Zagreb, Dept Cardiovasc Dis, Zagreb 41001, Croatia
基金
欧洲研究理事会;
关键词
cardiovascular imaging; deformation; diverging wave imaging; high frame rate imaging; plane wave imaging; tissue Doppler imaging; ultrafast cardiac imaging; PLANE-WAVE; DOPPLER; VALIDATION;
D O I
10.1016/j.jcmg.2014.06.004
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
Several recent technical advances in cardiac ultrasound allow data to be acquired at a very high frame rate. Retrospective gating, plane/diverging wave imaging, and multiline transmit imaging all improve the temporal resolution of the conventional ultrasound system. The main drawback of such high frame rate data acquisition is that it typically has reduced image quality. However, for given clinical applications, the acquisition of temporally-resolved data might outweigh the reduction in image quality. It is the aim of this paper to provide an overview of the technical principles behind these new ultrasound imaging modalities, to review the current evidence of their potential clinical added value, and to forecast how they might influence daily clinical practice. (C) 2014 by the American College of Cardiology Foundation.
引用
收藏
页码:812 / 823
页数:12
相关论文
共 45 条
[1]  
Bercoff J., 2011, Ultrasound Imaging-Medical Applications, DOI [10.5772/19729, DOI 10.5772/19729]
[2]   Ultrafast Compound Doppler Imaging: Providing Full Blood Flow Characterization [J].
Bercoff, Jeremy ;
Montaldo, Gabriel ;
Loupas, Thanasis ;
Savery, David ;
Meziere, Fabien ;
Fink, Mathias ;
Tanter, Mickael .
IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, 2011, 58 (01) :134-147
[3]   3D Tissue Doppler imaging with ultra high frame rate [J].
Brekke, Birger ;
Torp, Hans ;
Bjastad, Tore ;
Stoylen, Asbjorn ;
Aase, Svein A. .
2011 IEEE INTERNATIONAL ULTRASONICS SYMPOSIUM (IUS), 2011, :717-720
[4]   A solution to diffraction biases in sonoelasticity: The acoustic impulse technique [J].
Catheline, S ;
Wu, F ;
Fink, M .
JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA, 1999, 105 (05) :2941-2950
[5]  
Cikes M, 2012, EUR HEART J CARDI S1, V13, P110
[6]   In Vivo Quantitative Mapping of Myocardial Stiffening and Transmural Anisotropy During the Cardiac Cycle [J].
Couade, Mathieu ;
Pernot, Mathieu ;
Messas, Emmanuel ;
Bel, Alain ;
Ba, Maguette ;
Hagege, Albert ;
Fink, Mathias ;
Tanter, Mickael .
IEEE TRANSACTIONS ON MEDICAL IMAGING, 2011, 30 (02) :295-305
[7]   QUANTITATIVE ASSESSMENT OF ARTERIAL WALL BIOMECHANICAL PROPERTIES USING SHEAR WAVE IMAGING [J].
Couade, Mathieu ;
Pernot, Mathieu ;
Prada, Claire ;
Messas, Emmanuel ;
Emmerich, Joseph ;
Bruneval, Patrick ;
Criton, Aline ;
Fink, Mathias ;
Tanter, Mickael .
ULTRASOUND IN MEDICINE AND BIOLOGY, 2010, 36 (10) :1662-1676
[8]   Ultrasound Contrast Plane Wave Imaging [J].
Couture, Olivier ;
Fink, Mathias ;
Tanter, Mickael .
IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, 2012, 59 (12) :2676-2683
[9]   Quantification of regional left and right ventricular longitudinal function in 75 normal fetuses using ultrasound-based strain rate and strain imaging [J].
Di Salvo, G ;
Russo, MG ;
Paladini, D ;
Pacileo, G ;
Felicetti, M ;
Ricci, C ;
Cardaropoli, D ;
Palma, M ;
Caso, P ;
Calabro, R .
ULTRASOUND IN MEDICINE AND BIOLOGY, 2005, 31 (09) :1159-1162
[10]   Temporal frequency requirements for tissue velocity imaging of the fetal heart [J].
Elmstedt, N. ;
Lind, B. ;
Ferm-Widlund, K. ;
Westgren, M. ;
Brodin, L. A. .
ULTRASOUND IN OBSTETRICS & GYNECOLOGY, 2011, 38 (04) :413-417