Coherent plane-wave compounding for very high frame rate ultrasonography and transient elastography
The emergence of ultrafast frame rates in ultrasonic imaging has been recently made possible by the development of new imaging modalities such as transient elastography. Data acquisition rates reaching more than thousands of images per second enable the real-time visualization of shear mechanical wa...
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| Published in | IEEE transactions on ultrasonics, ferroelectrics, and frequency control Vol. 56; no. 3; pp. 489 - 506 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.03.2009
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0885-3010 1525-8955 1525-8955 |
| DOI | 10.1109/TUFFC.2009.1067 |
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| Abstract | The emergence of ultrafast frame rates in ultrasonic imaging has been recently made possible by the development of new imaging modalities such as transient elastography. Data acquisition rates reaching more than thousands of images per second enable the real-time visualization of shear mechanical waves propagating in biological tissues, which convey information about local viscoelastic properties of tissues. The first proposed approach for reaching such ultrafast frame rates consists of transmitting plane waves into the medium. However, because the beamforming process is then restricted to the receive mode, the echographic images obtained in the ultrafast mode suffer from a low quality in terms of resolution and contrast and affect the robustness of the transient elastography mode. It is here proposed to improve the beamforming process by using a coherent recombination of compounded plane-wave transmissions to recover high-quality echographic images without degrading the high frame rate capabilities. A theoretical model is derived for the comparison between the proposed method and the conventional B-mode imaging in terms of contrast, signal-to-noise ratio, and resolution. Our model predicts that a significantly smaller number of insonifications, 10 times lower, is sufficient to reach an image quality comparable to conventional B-mode. Theoretical predictions are confirmed by in vitro experiments performed in tissue-mimicking phantoms. Such results raise the appeal of coherent compounds for use with standard imaging modes such as B-mode or color flow. Moreover, in the context of transient elastography, ultrafast frame rates can be preserved while increasing the image quality compared with flat insonifications. Improvements on the transient elastography mode are presented and discussed. |
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| AbstractList | [...] results raise the appeal of coherent compounds for use with standard imaging modes such as B-mode or color flow. [...] in the context of transient elastography, ultrafast frame rates can be preserved while increasing the image quality compared with flat insonifications. The emergence of ultrafast frame rates in ultrasonic imaging has been recently made possible by the development of new imaging modalities such as transient elastography. Data acquisition rates reaching more than thousands of images per second enable the real-time visualization of shear mechanical waves propagating in biological tissues, which convey information about local viscoelastic properties of tissues. The first proposed approach for reaching such ultrafast frame rates consists of transmitting plane waves into the medium. However, because the beamforming process is then restricted to the receive mode, the echographic images obtained in the ultrafast mode suffer from a low quality in terms of resolution and contrast and affect the robustness of the transient elastography mode. It is here proposed to improve the beamforming process by using a coherent recombination of compounded plane-wave transmissions to recover high-quality echographic images without degrading the high frame rate capabilities. A theoretical model is derived for the comparison between the proposed method and the conventional B-mode imaging in terms of contrast, signal- to-noise ratio, and resolution. Our model predicts that a significantly smaller number of insonifications, 10 times lower, is sufficient to reach an image quality comparable to conventional B-mode. Theoretical predictions are confirmed by in vitro experiments performed in tissue-mimicking phantoms. Such results raise the appeal of coherent compounds for use with standard imaging modes such as B-mode or color flow. Moreover, in the context of transient elastography, ultrafast frame rates can be preserved while increasing the image quality compared with flat insonifications. Improvements on the transient elastography mode are presented and discussed. The emergence of ultrafast frame rates in ultrasonic imaging has been recently made possible by the development of new imaging modalities such as transient elastography. Data acquisition rates reaching more than thousands of images per second enable the real-time visualization of shear mechanical waves propagating in biological tissues, which convey information about local viscoelastic properties of tissues. The first proposed approach for reaching such ultrafast frame rates consists of transmitting plane waves into the medium. However, because the beamforming process is then restricted to the receive mode, the echographic images obtained in the ultrafast mode suffer from a low quality in terms of resolution and contrast and affect the robustness of the transient elastography mode. It is here proposed to improve the beamforming process by using a coherent recombination of compounded plane-wave transmissions to recover high-quality echographic images without degrading the high frame rate capabilities. A theoretical model is derived for the comparison between the proposed method and the conventional B-mode imaging in terms of contrast, signal-to-noise ratio, and resolution. Our model predicts that a significantly smaller number of insonifications, 10 times lower, is sufficient to reach an image quality comparable to conventional B-mode. Theoretical predictions are confirmed by in vitro experiments performed in tissue-mimicking phantoms. Such results raise the appeal of coherent compounds for use with standard imaging modes such as B-mode or color flow. Moreover, in the context of transient elastography, ultrafast frame rates can be preserved while increasing the image quality compared with flat insonifications. Improvements on the transient elastography mode are presented and discussed.The emergence of ultrafast frame rates in ultrasonic imaging has been recently made possible by the development of new imaging modalities such as transient elastography. Data acquisition rates reaching more than thousands of images per second enable the real-time visualization of shear mechanical waves propagating in biological tissues, which convey information about local viscoelastic properties of tissues. The first proposed approach for reaching such ultrafast frame rates consists of transmitting plane waves into the medium. However, because the beamforming process is then restricted to the receive mode, the echographic images obtained in the ultrafast mode suffer from a low quality in terms of resolution and contrast and affect the robustness of the transient elastography mode. It is here proposed to improve the beamforming process by using a coherent recombination of compounded plane-wave transmissions to recover high-quality echographic images without degrading the high frame rate capabilities. A theoretical model is derived for the comparison between the proposed method and the conventional B-mode imaging in terms of contrast, signal-to-noise ratio, and resolution. Our model predicts that a significantly smaller number of insonifications, 10 times lower, is sufficient to reach an image quality comparable to conventional B-mode. Theoretical predictions are confirmed by in vitro experiments performed in tissue-mimicking phantoms. Such results raise the appeal of coherent compounds for use with standard imaging modes such as B-mode or color flow. Moreover, in the context of transient elastography, ultrafast frame rates can be preserved while increasing the image quality compared with flat insonifications. Improvements on the transient elastography mode are presented and discussed. |
| Author | Benech, N. Montaldo, G. Fink, M. Bercoff, J. Tanter, M. |
| Author_xml | – sequence: 1 givenname: G. surname: Montaldo fullname: Montaldo, G. organization: Ecole Super. de Phys. et Chimie Industrielles (ESPCI), INSERM, Paris – sequence: 2 givenname: M. surname: Tanter fullname: Tanter, M. organization: Ecole Super. de Phys. et Chimie Industrielles (ESPCI), INSERM, Paris – sequence: 3 givenname: J. surname: Bercoff fullname: Bercoff, J. organization: SuperSonic Imagine, Aixen Provence – sequence: 4 givenname: N. surname: Benech fullname: Benech, N. organization: Ecole Super. de Phys. et Chimie Industrielles (ESPCI), INSERM, Paris – sequence: 5 givenname: M. surname: Fink fullname: Fink, M. organization: Ecole Super. de Phys. et Chimie Industrielles (ESPCI), INSERM, Paris |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=21471937$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/19411209$$D View this record in MEDLINE/PubMed |
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| CODEN | ITUCER |
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| Keywords | Averaging method B scan Ultrasound imaging Noise reduction Elastic wave Modeling Beam forming Tissue Acoustic antenna Model test Acoustic image Elastography Ultrasound Human Transient response Experimental study Real time Color image Wave transmission Echography Plane wave Medical imagery S wave Hemodynamics Signal to noise ratio |
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| PublicationTitle | IEEE transactions on ultrasonics, ferroelectrics, and frequency control |
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| References | ref13 ref12 ref15 ref14 ref30 ref11 ref10 ref2 ref17 ref16 st ner (ref28) 2003 ref18 kino (ref26) 1987 deffieux (ref27) 0 jespersen (ref19) 1998; 20 (ref22) 2003 delannoy (ref1) 1979; 1 ref24 ref23 ref25 ref20 ref21 ref29 ref8 ref7 ref9 ref4 ref3 ref6 ref5 fatemi (ref31) 1998; 280 |
| References_xml | – ident: ref10 doi: 10.1063/1.1667613 – ident: ref29 doi: 10.1121/1.1378344 – ident: ref30 doi: 10.1016/S0301-5629(01)00499-9 – volume: 1 start-page: 447 year: 1979 ident: ref1 publication-title: Echocardiology doi: 10.1007/978-94-009-9324-2_62 – ident: ref21 doi: 10.1016/j.ultras.2003.12.027 – ident: ref17 doi: 10.1109/TUFFC.2006.1632680 – year: 2003 ident: ref28 article-title: Ultrasound imaging system performance assessment publication-title: 49th AAPM Annual Meeting – year: 0 ident: ref27 article-title: Shear wave spectroscopy of human soft tissues for in vivo quantification of the viscoelasticity publication-title: IEEE Trans Med Imaging – ident: ref9 doi: 10.1016/S0301-5629(03)00978-5 – ident: ref7 doi: 10.1007/0-306-47107-8_68 – ident: ref6 doi: 10.1177/016173469902100402 – ident: ref11 doi: 10.1109/TUFFC.2004.1295425 – ident: ref4 doi: 10.1109/58.68466 – ident: ref20 doi: 10.1016/S0887-2171(01)90018-6 – year: 2003 ident: ref22 publication-title: Synthetic aperture focusing method for ultrasound imaging based on planar waves – volume: 20 start-page: 81 year: 1998 ident: ref19 article-title: Multi-angle compound imaging publication-title: Ultrason Imaging doi: 10.1177/016173469802000201 – ident: ref3 doi: 10.1121/1.390734 – ident: ref2 doi: 10.1063/1.326397 – ident: ref15 doi: 10.1109/58.655200 – ident: ref16 doi: 10.1109/58.646914 – ident: ref13 doi: 10.1109/58.105250 – start-page: 191 year: 1987 ident: ref26 publication-title: Acoustic waves Devices Imaging and Analog Signal Processing – ident: ref12 doi: 10.1016/0301-5629(91)90048-2 – ident: ref18 doi: 10.1016/0161-7346(81)90162-0 – ident: ref5 doi: 10.1109/58.68467 – ident: ref24 doi: 10.1109/TUFFC.2005.1406547 – volume: 280 start-page: 82 year: 1998 ident: ref31 article-title: Ultrasound-stimulated vibroacoustic spectrography publication-title: Science doi: 10.1126/science.280.5360.82 – ident: ref8 doi: 10.1109/58.996560 – ident: ref25 doi: 10.1109/TUFFC.2002.1041078 – ident: ref14 doi: 10.1109/58.143178 – ident: ref23 doi: 10.1109/TUFFC.2005.1503974 |
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| Snippet | The emergence of ultrafast frame rates in ultrasonic imaging has been recently made possible by the development of new imaging modalities such as transient... [...] results raise the appeal of coherent compounds for use with standard imaging modes such as B-mode or color flow. [...] in the context of transient... |
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| SubjectTerms | Acoustic signal processing Acoustics Algorithms Array signal processing Beamforming Biological and medical sciences Biological tissues Cardiovascular system Coherence Data acquisition Data visualization Digital cameras Elasticity Elasticity Imaging Techniques Exact sciences and technology Female Frames Fundamental areas of phenomenology (including applications) Humans Image contrast Image Enhancement - methods Image quality Image resolution Imaging Investigative techniques, diagnostic techniques (general aspects) Mathematical models Medical sciences Miscellaneous. Technology Models, Statistical Models, Theoretical Physics Signal Processing, Computer-Assisted Transduction; acoustical devices for the generation and reproduction of sound Ultrasonic imaging Ultrasonic investigative techniques Ultrasonography Ultrasonography, Mammary Viscosity |
| Title | Coherent plane-wave compounding for very high frame rate ultrasonography and transient elastography |
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