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Delay-Encoded Harmonic Imaging (DE-HI) in Multiplane-Wave Compounding.

Publication ,  Journal Article
Gong, P; Song, P; Chen, S
Published in: IEEE transactions on medical imaging
April 2017

The development of ultrafast ultrasound imaging brings great opportunities to improve imaging technologies such as shear wave elastography and ultrafast Doppler imaging. In ultrafast imaging, several tilted plane or diverging wave images are coherently combined to form a compounded image, leading to trade-offs among image signal-to-noise ratio (SNR), resolution, and post-compounded frame rate. Multiplane wave (MW) imaging is proposed to solve this trade-off by encoding multiple plane waves with Hadamard matrix during one transmission event (i.e. pulse-echo event), to improve image SNR without sacrificing the resolution or frame rate. However, it suffers from stronger reverberation artifacts in B-mode images compared to standard plane wave compounding due to longer transmitted pulses. If harmonic imaging can be combined with MW imaging, the reverberation artifacts and other clutter noises such as sidelobes and multipath scattering clutters should be suppressed. The challenge, however, is that the Hadamard codes used in MW imaging cannot encode the 2nd harmonic component by inversing the pulse polarity. In this paper, we propose a delay-encoded harmonic imaging (DE-HI) technique to encode the 2nd harmonic with a one quarter period delay calculated at the transmit center frequency, rather than reversing the pulse polarity during multiplane wave emissions. Received DE-HI signals can then be decoded in the frequency domain to recover the signals as in single plane wave emissions, but mainly with improved SNR at the 2nd harmonic component instead of the fundamental component. DE-HI was tested experimentally with a point target, a B-mode imaging phantom, and in-vivo human liver imaging. Improvements in image contrast-to-noise ratio (CNR), spatial resolution, and lesion-signal-to-noise ratio ( l SNR) have been achieved compared to standard plane wave compounding, MW imaging, and standard harmonic imaging (maximal improvement of 116% on CNR and 115% on l SNR as compared to standard HI around 55 mm depth in the B-mode imaging phantom study). The potential high frame rate and the stability of encoding and decoding processes of DE-HI were also demonstrated, which made DE-HI promising for a wide spectrum of imaging applications.

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Published In

IEEE transactions on medical imaging

DOI

EISSN

1558-254X

ISSN

0278-0062

Publication Date

April 2017

Volume

36

Issue

4

Start / End Page

952 / 959

Related Subject Headings

  • Ultrasonography
  • Signal-To-Noise Ratio
  • Phantoms, Imaging
  • Nuclear Medicine & Medical Imaging
  • Liver
  • Humans
  • Artifacts
  • 46 Information and computing sciences
  • 40 Engineering
  • 09 Engineering
 

Citation

APA
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ICMJE
MLA
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Gong, P., Song, P., & Chen, S. (2017). Delay-Encoded Harmonic Imaging (DE-HI) in Multiplane-Wave Compounding. IEEE Transactions on Medical Imaging, 36(4), 952–959. https://doi.org/10.1109/tmi.2016.2638639
Gong, Ping, Pengfei Song, and Shigao Chen. “Delay-Encoded Harmonic Imaging (DE-HI) in Multiplane-Wave Compounding.IEEE Transactions on Medical Imaging 36, no. 4 (April 2017): 952–59. https://doi.org/10.1109/tmi.2016.2638639.
Gong P, Song P, Chen S. Delay-Encoded Harmonic Imaging (DE-HI) in Multiplane-Wave Compounding. IEEE transactions on medical imaging. 2017 Apr;36(4):952–9.
Gong, Ping, et al. “Delay-Encoded Harmonic Imaging (DE-HI) in Multiplane-Wave Compounding.IEEE Transactions on Medical Imaging, vol. 36, no. 4, Apr. 2017, pp. 952–59. Epmc, doi:10.1109/tmi.2016.2638639.
Gong P, Song P, Chen S. Delay-Encoded Harmonic Imaging (DE-HI) in Multiplane-Wave Compounding. IEEE transactions on medical imaging. 2017 Apr;36(4):952–959.

Published In

IEEE transactions on medical imaging

DOI

EISSN

1558-254X

ISSN

0278-0062

Publication Date

April 2017

Volume

36

Issue

4

Start / End Page

952 / 959

Related Subject Headings

  • Ultrasonography
  • Signal-To-Noise Ratio
  • Phantoms, Imaging
  • Nuclear Medicine & Medical Imaging
  • Liver
  • Humans
  • Artifacts
  • 46 Information and computing sciences
  • 40 Engineering
  • 09 Engineering