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Simultaneous identification of elastic properties, thickness, and diameter of arteries excited with ultrasound radiation force.

Publication ,  Journal Article
Dutta, P; Urban, MW; Le Maître, OP; Greenleaf, JF; Aquino, W
Published in: Physics in medicine and biology
July 2015

The elastic and geometric properties of arteries have been long recognized as important predictors of cardiovascular disease. This work presents a robust technique for the noninvasive characterization of anisotropic elastic properties as well as thickness and diameter in arterial vessels. In our approach, guided waves are excited along arteries using the radiation force of ultrasound. Group velocity is used as the quantity of interest to reconstruct elastic and geometric features of the vessels. One of the main contributions of this work is a systematic approach based on sparse-grid collocation interpolation to construct surrogate models of arteries. These surrogate models are in turn used with direct-search optimization techniques to produce fast and accurate estimates of elastic properties, diameter, and thickness. One of the attractive features of the proposed approach is that once a surrogate model is built, it can be used for near real-time identification across many different types of arteries. We demonstrate the feasibility of the method using simulated and in vitro laboratory experiments on a silicon rubber tube and a porcine carotid artery. Our results show that using our proposed method, we can reliably identify the longitudinal modulus, thickness, and diameter of arteries. The circumferential modulus was found to have little influence in the group velocity, which renders the former quantity unidentifiable using the current experimental setting. Future work will consider the measurement of circumferential waves with the objective of improving the identifiability of the circumferential modulus.

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Published In

Physics in medicine and biology

DOI

EISSN

1361-6560

ISSN

0031-9155

Publication Date

July 2015

Volume

60

Issue

13

Start / End Page

5279 / 5296

Related Subject Headings

  • Ultrasonography
  • Ultrasonic Waves
  • Swine
  • Stress, Mechanical
  • Nuclear Medicine & Medical Imaging
  • Image Interpretation, Computer-Assisted
  • Feasibility Studies
  • Elasticity
  • Computer Simulation
  • Carotid Arteries
 

Citation

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Dutta, P., Urban, M. W., Le Maître, O. P., Greenleaf, J. F., & Aquino, W. (2015). Simultaneous identification of elastic properties, thickness, and diameter of arteries excited with ultrasound radiation force. Physics in Medicine and Biology, 60(13), 5279–5296. https://doi.org/10.1088/0031-9155/60/13/5279
Dutta, Parikshit, Matthew W. Urban, Olivier P. Le Maître, James F. Greenleaf, and Wilkins Aquino. “Simultaneous identification of elastic properties, thickness, and diameter of arteries excited with ultrasound radiation force.Physics in Medicine and Biology 60, no. 13 (July 2015): 5279–96. https://doi.org/10.1088/0031-9155/60/13/5279.
Dutta P, Urban MW, Le Maître OP, Greenleaf JF, Aquino W. Simultaneous identification of elastic properties, thickness, and diameter of arteries excited with ultrasound radiation force. Physics in medicine and biology. 2015 Jul;60(13):5279–96.
Dutta, Parikshit, et al. “Simultaneous identification of elastic properties, thickness, and diameter of arteries excited with ultrasound radiation force.Physics in Medicine and Biology, vol. 60, no. 13, July 2015, pp. 5279–96. Epmc, doi:10.1088/0031-9155/60/13/5279.
Dutta P, Urban MW, Le Maître OP, Greenleaf JF, Aquino W. Simultaneous identification of elastic properties, thickness, and diameter of arteries excited with ultrasound radiation force. Physics in medicine and biology. 2015 Jul;60(13):5279–5296.
Journal cover image

Published In

Physics in medicine and biology

DOI

EISSN

1361-6560

ISSN

0031-9155

Publication Date

July 2015

Volume

60

Issue

13

Start / End Page

5279 / 5296

Related Subject Headings

  • Ultrasonography
  • Ultrasonic Waves
  • Swine
  • Stress, Mechanical
  • Nuclear Medicine & Medical Imaging
  • Image Interpretation, Computer-Assisted
  • Feasibility Studies
  • Elasticity
  • Computer Simulation
  • Carotid Arteries