Time-Resolved Pulsed Elastography with Ultrafast Ultrasonic Imaging

@article{Sandrin1999TimeResolvedPE,
  title={Time-Resolved Pulsed Elastography with Ultrafast Ultrasonic Imaging},
  author={L. Sandrin and S. Catheline and M. Tanter and X. Hennequin and M. Fink},
  journal={Ultrasonic Imaging},
  year={1999},
  volume={21},
  pages={259 - 272}
}
In this paper, a new elastographic method is proposed. Using this method, the propagation of a low-frequency transient shear wave can be imaged by means of an ultrafast imaging system (up to 10,000 frames/s) that we have developed. Ultrafast ultrasonic imaging is obtained with a linear array of transducers (3.5 MHz) connected to electronics that have 64 channels sampled at 30 MHz and 128 Kbytes for storing the backscattered signals. Displacements are measured using cross-correlation of the… Expand
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  • 32
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  • 1,026
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  • 199
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  • 52
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References

SHOWING 1-10 OF 18 REFERENCES
Diffraction field of a low frequency vibrator in soft tissues using transient elastography
  • 151
"Sonoelasticity" images derived from ultrasound signals in mechanically vibrated tissues.
  • 509
A solution to diffraction biases in sonoelasticity: the acoustic impulse technique.
  • 268
Ultrasonic imaging of internal vibration of soft tissue under forced vibration
  • Y. Yamakoshi, J. Sato, T. Sato
  • Materials Science, Medicine
  • IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control
  • 1990
  • 451
...
1
2
...