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Measurement of biaxial mechanical properties of soft tubes and arteries using piezoelectric elements and sonometry.

Publication ,  Journal Article
Bernal, M; Urban, MW; Rosario, D; Aquino, W; Greenleaf, JF
Published in: Physics in medicine and biology
June 2011

Arterial elasticity has gained importance in recent decades because it has been shown to be an independent predictor of cardiovascular diseases. Several in vivo and ex vivo techniques have been developed to characterize the elastic properties of vessels. In vivo techniques tend to ignore the anisotropy of the mechanical properties in the vessel wall, and therefore fail to characterize elasticity in different directions. Ex vivo techniques have been focused on studying the mechanical properties in different axes. In this paper, we present a technique that uses piezoelectric elements to measure the elasticity of soft tubes and excised arteries in two directions while maintaining the natural structure of these vessels. This technique uses sonometry data from piezoelectric elements to measure the strain in the longitudinal and circumferential directions while the tubes/arteries are being pressurized. We conducted experiments on urethane tubes to evaluate the technique and compared the experimental results with mechanical testing done on the materials used for making the tubes. We then performed sonometry experiments on excised pig carotid arteries assuming that they are transversely isotropic materials. To evaluate the sensitivity of this technique to changes in the material properties, we changed the temperature of the saline bath in which the arteries were immersed. The calculated Young's modulus from sonometry experiments for the urethane tubes and the mechanical testing values showed good agreement, deviating no more than 13.1%. The elasticity values from the excised arteries and the behavior with the temperature changed agreed with previous work done in similar arteries. Therefore, we propose this technique for nondestructive testing of the biaxial properties of soft material tubes and excised arteries in their natural physiological shape.

Duke Scholars

Published In

Physics in medicine and biology

DOI

EISSN

1361-6560

ISSN

0031-9155

Publication Date

June 2011

Volume

56

Issue

11

Start / End Page

3371 / 3386

Related Subject Headings

  • Urethane
  • Ultrasonics
  • Swine
  • Stress, Mechanical
  • Pressure
  • Nuclear Medicine & Medical Imaging
  • Female
  • Electricity
  • Elasticity
  • Carotid Arteries
 

Citation

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Bernal, M., Urban, M. W., Rosario, D., Aquino, W., & Greenleaf, J. F. (2011). Measurement of biaxial mechanical properties of soft tubes and arteries using piezoelectric elements and sonometry. Physics in Medicine and Biology, 56(11), 3371–3386. https://doi.org/10.1088/0031-9155/56/11/012
Bernal, Miguel, Matthew W. Urban, Daniel Rosario, Wilkins Aquino, and James F. Greenleaf. “Measurement of biaxial mechanical properties of soft tubes and arteries using piezoelectric elements and sonometry.Physics in Medicine and Biology 56, no. 11 (June 2011): 3371–86. https://doi.org/10.1088/0031-9155/56/11/012.
Bernal M, Urban MW, Rosario D, Aquino W, Greenleaf JF. Measurement of biaxial mechanical properties of soft tubes and arteries using piezoelectric elements and sonometry. Physics in medicine and biology. 2011 Jun;56(11):3371–86.
Bernal, Miguel, et al. “Measurement of biaxial mechanical properties of soft tubes and arteries using piezoelectric elements and sonometry.Physics in Medicine and Biology, vol. 56, no. 11, June 2011, pp. 3371–86. Epmc, doi:10.1088/0031-9155/56/11/012.
Bernal M, Urban MW, Rosario D, Aquino W, Greenleaf JF. Measurement of biaxial mechanical properties of soft tubes and arteries using piezoelectric elements and sonometry. Physics in medicine and biology. 2011 Jun;56(11):3371–3386.
Journal cover image

Published In

Physics in medicine and biology

DOI

EISSN

1361-6560

ISSN

0031-9155

Publication Date

June 2011

Volume

56

Issue

11

Start / End Page

3371 / 3386

Related Subject Headings

  • Urethane
  • Ultrasonics
  • Swine
  • Stress, Mechanical
  • Pressure
  • Nuclear Medicine & Medical Imaging
  • Female
  • Electricity
  • Elasticity
  • Carotid Arteries