Abstract
Purpose
This paper investigates the use of shear wave elastography (SWE) in deep tissues with a two-dimensional (2D) transducer array.
Methods
A 130-element 800-kHz 2D array for SWE in regions deeper than 100 mm is designed, fabricated, and characterized. SWE simulations are performed with the proposed 2D array in a tissue-like medium.
Results
The pressure field of the proposed transducer was recorded and utilized to simulate the generation of acoustic radiation force in deep tissues. The elasticity map of the tissue was successfully reconstructed by tracking the speed of shear wave propagation at 120 mm depth.
Conclusion
This study suggests that a 2D transducer with proper parameters may provide a means for extending the depth range of SWE.
This paper investigates the use of shear wave elastography (SWE) in deep tissues with a two-dimensional (2D) transducer array.
Methods
A 130-element 800-kHz 2D array for SWE in regions deeper than 100 mm is designed, fabricated, and characterized. SWE simulations are performed with the proposed 2D array in a tissue-like medium.
Results
The pressure field of the proposed transducer was recorded and utilized to simulate the generation of acoustic radiation force in deep tissues. The elasticity map of the tissue was successfully reconstructed by tracking the speed of shear wave propagation at 120 mm depth.
Conclusion
This study suggests that a 2D transducer with proper parameters may provide a means for extending the depth range of SWE.
| Original language | English |
|---|---|
| Pages (from-to) | 277–289 |
| Number of pages | 13 |
| Journal | Research on Biomedical Engineering |
| Volume | 36 |
| Issue number | 3 |
| DOIs | |
| Publication status | Published - 29 Jun 2020 |