Literature DB >> 28611483

Longitudinal shear wave imaging for elasticity mapping using optical coherence elastography.

Jiang Zhu1, Yusi Miao, Li Qi1, Yueqiao Qu, Youmin He, Qiang Yang1, Zhongping Chen.   

Abstract

Shear wave measurements for the determination of tissue elastic properties have been used in clinical diagnosis and soft tissue assessment. A shear wave propagates as a transverse wave where vibration is perpendicular to the wave propagation direction. Previous transverse shear wave measurements could detect the shear modulus in the lateral region of the force; however, they could not provide the elastic information in the axial region of the force. In this study, we report the imaging and quantification of longitudinal shear wave propagation using optical coherence tomography to measure the elastic properties along the force direction. The experimental validation and finite element simulations show that the longitudinal shear wave propagates along the vibration direction as a plane wave in the near field of a planar source. The wave velocity measurement can quantify the shear moduli in a homogeneous phantom and a side-by-side phantom. Combining the transverse shear wave and longitudinal shear wave measurements, this system has great potential to detect the directionally dependent elastic properties in tissues without a change in the force direction.

Entities:  

Year:  2017        PMID: 28611483      PMCID: PMC5432373          DOI: 10.1063/1.4983292

Source DB:  PubMed          Journal:  Appl Phys Lett        ISSN: 0003-6951            Impact factor:   3.791


  24 in total

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3.  Resonant acoustic radiation force optical coherence elastography.

Authors:  Wenjuan Qi; Rui Li; Teng Ma; Jiawen Li; K Kirk Shung; Qifa Zhou; Zhongping Chen
Journal:  Appl Phys Lett       Date:  2013-09-06       Impact factor: 3.791

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Authors:  Edwin L Carstensen; Kevin J Parker; Robert M Lerner
Journal:  Ultrasound Med Biol       Date:  2008-05-15       Impact factor: 2.998

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6.  Confocal acoustic radiation force optical coherence elastography using a ring ultrasonic transducer.

Authors:  Wenjuan Qi; Rui Li; Teng Ma; K Kirk Shung; Qifa Zhou; Zhongping Chen
Journal:  Appl Phys Lett       Date:  2014-03-27       Impact factor: 3.791

7.  Quantitative assessment of normal soft-tissue elasticity using shear-wave ultrasound elastography.

Authors:  Kemal Arda; Nazan Ciledag; Elif Aktas; Bilgin Kadri Aribas; Kenan Köse
Journal:  AJR Am J Roentgenol       Date:  2011-09       Impact factor: 3.959

8.  Fully distributed absolute blood flow velocity measurement for middle cerebral arteries using Doppler optical coherence tomography.

Authors:  Li Qi; Jiang Zhu; Aneeka M Hancock; Cuixia Dai; Xuping Zhang; Ron D Frostig; Zhongping Chen
Journal:  Biomed Opt Express       Date:  2016-01-20       Impact factor: 3.732

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Authors:  Shang Wang; Kirill V Larin
Journal:  Opt Lett       Date:  2014-01-01       Impact factor: 3.776

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Authors:  Jiang Zhu; Yueqiao Qu; Teng Ma; Rui Li; Yongzhao Du; Shenghai Huang; K Kirk Shung; Qifa Zhou; Zhongping Chen
Journal:  Opt Lett       Date:  2015-05-01       Impact factor: 3.776
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  13 in total

1.  Longitudinal shear waves for elastic characterization of tissues in optical coherence elastography.

Authors:  Fernando Zvietcovich; Gary R Ge; Humberto Mestre; Michael Giannetto; Maiken Nedergaard; Jannick P Rolland; Kevin J Parker
Journal:  Biomed Opt Express       Date:  2019-07-01       Impact factor: 3.732

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Journal:  J Biomed Opt       Date:  2018-10       Impact factor: 3.170

3.  Acoustic radiation force optical coherence elastography for elasticity assessment of soft tissues.

Authors:  Jiang Zhu; Xingdao He; Zhongping Chen
Journal:  Appl Spectrosc Rev       Date:  2018-06-25       Impact factor: 5.917

4.  Characterization of oviduct ciliary beat frequency using real time phase resolved Doppler spectrally encoded interferometric microscopy.

Authors:  Youmin He; Yueqiao Qu; Joseph C Jing; Zhongping Chen
Journal:  Biomed Opt Express       Date:  2019-10-11       Impact factor: 3.732

5.  Super-shear evanescent waves for non-contact elastography of soft tissues.

Authors:  John J Pitre; Mitchell A Kirby; Liang Gao; David S Li; Tueng Shen; Ruikang K Wang; Matthew O'Donnell; Ivan Pelivanov
Journal:  Appl Phys Lett       Date:  2019-08-21       Impact factor: 3.791

6.  Viscosity monitoring during hemodiluted blood coagulation using optical coherence elastography.

Authors:  Xiangqun Xu; Jiang Zhu; Junxiao Yu; Zhongping Chen
Journal:  IEEE J Sel Top Quantum Electron       Date:  2018-05-07       Impact factor: 4.544

7.  Longitudinal elastic wave imaging using nanobomb optical coherence elastography.

Authors:  Chih-Hao Liu; Dmitry Nevozhay; Hongqiu Zhang; Susobhan Das; Alexander Schill; Manmohan Singh; Salavat Aglyamov; Konstantin V Sokolov; Kirill V Larin
Journal:  Opt Lett       Date:  2019-06-15       Impact factor: 3.776

8.  Wave-based optical coherence elastography: The 10-year perspective.

Authors:  Fernando Zvietcovich; Kirill V Larin
Journal:  Prog Biomed Eng (Bristol)       Date:  2022-01-14

9.  Confocal Shear Wave Acoustic Radiation Force Optical Coherence Elastography for Imaging and Quantification of the In Vivo Posterior Eye.

Authors:  Youmin He; Yueqiao Qu; Jiang Zhu; Yi Zhang; Arya Saidi; Teng Ma; Qifa Zhou; Zhongping Chen
Journal:  IEEE J Sel Top Quantum Electron       Date:  2018-05-08       Impact factor: 4.544

10.  Repetitive optical coherence elastography measurements with blinking nanobombs.

Authors:  Paul Boerner; Dmitry Nevozhay; Maryam Hatamimoslehabadi; Harshdeep Singh Chawla; Fernando Zvietcovich; Salavat Aglyamov; Kirill V Larin; Konstantin V Sokolov
Journal:  Biomed Opt Express       Date:  2020-10-22       Impact factor: 3.562
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