Passive in vivo elastography from skeletal muscle noise

被引:88
|
作者
Sabra, Karim G. [1 ]
Conti, Stephane [1 ]
Roux, Philippe [1 ]
Kuperman, W. A. [1 ]
机构
[1] Univ Calif San Diego, Scripps Inst Oceanog, Marine Phys Lab, La Jolla, CA 92093 USA
来源
APPLIED PHYSICS LETTERS | 2007年 / 90卷 / 19期
关键词
D O I
10.1063/1.2737358
中图分类号
O59 [应用物理学];
学科分类号
摘要
Measuring the in vivo elastic properties of muscles (e.g., stiffness) provides a means for diagnosing and monitoring muscular activity. The authors demonstrated a passive in vivo elastography technique without an active external radiation source. This technique instead uses cross correlations of contracting skeletal muscle noise recorded with skin-mounted sensors. Each passive sensor becomes a virtual in vivo shear wave source. The results point to a low-cost, noninvasive technique for monitoring biomechanical in vivo muscle properties. The efficacy of the passive elastography technique originates from the high density of cross paths between all sensor pairs, potentially achieving the same sensitivity obtained from active elastography methods. (C) 2007 American Institute of Physics.
引用
收藏
页数:3
相关论文
共 50 条
  • [31] In vivo myosin step-size from zebrafish skeletal muscle
    Burghardt, Thomas P.
    Ajtai, Katalin
    Sun, Xiaojing
    Takubo, Naoko
    Wang, Yihua
    OPEN BIOLOGY, 2016, 6 (05):
  • [32] In vivo measurement of anisotropic elasticity of skeletal muscles with MR-elastography
    Kang, Y.
    Oida, T.
    Fukuma, A.
    Azuma, T.
    Okamoto, J.
    Takizawa, O.
    Matsuda, T.
    Tsutsumi, S.
    PROCEEDINGS OF THE 5TH WORLD CONGRESS OF BIOMECHANICS, 2006, : 629 - +
  • [33] Towards in vivo non-invasive muscle characterization: Shear wave elastography to assess passive and active mechanics of triceps surae
    Zimmer, Manuela
    Straub, Louis
    Ates, Filiz
    GAIT & POSTURE, 2023, 100 : 26 - 27
  • [34] In vivo evaluation of decellularized skeletal muscle matrices for skeletal muscle repair: A systematic review
    Hennion, Ina
    Philips, Charlot
    Jiang, Chong
    van de Winkel, Nele
    Ceulemans, Laurens J.
    Thorrez, Lieven
    BIOENGINEERING & TRANSLATIONAL MEDICINE, 2025,
  • [35] Passive muscle stiffness is correlated to in vivo muscle operating lengths
    Horner, A. M.
    Azizi, E.
    Roberts, T. J.
    INTEGRATIVE AND COMPARATIVE BIOLOGY, 2019, 59 : E104 - E104
  • [36] Characterizing the elasticity of skeletal muscle using quantitative micro-elastography
    Li, Jiayue
    Lloyd, Erin M.
    Hepburn, Matt S.
    Mowla, Alireza
    Choi, Yu Suk
    Grounds, Miranda D.
    Kennedy, Brendan F.
    OPTICAL COHERENCE IMAGING TECHNIQUES AND IMAGING IN SCATTERING MEDIA IV, 2021, 11924
  • [37] Multiscale Passive Mechanical Characterization of Rodent Skeletal Muscle
    Pouletaut, Philippe
    Tatarenko, Yoann
    Chakouch, Mashhour K.
    Li, Meng
    Joumaa, Venus
    Hawse, John R.
    Herzog, Walter
    Chatelin, Simon
    Bensamoun, Sabine F.
    IRBM, 2023, 44 (06)
  • [38] A nonlinear rheological model for active and passive skeletal muscle
    Corr, DT
    Vanderby, R
    Best, TM
    JOURNAL OF APPLIED BIOMECHANICS, 2003, 19 (03) : 255 - 263
  • [39] Passive skeletal muscle can function as an osmotic engine
    Wold, Ethan S.
    Sleboda, David A.
    Roberts, Thomas J.
    BIOLOGY LETTERS, 2021, 17 (03)
  • [40] Osmotic engine drives shortening in passive skeletal muscle
    Wold, E. S.
    Roberts, T. J.
    Sleboda, D. A.
    INTEGRATIVE AND COMPARATIVE BIOLOGY, 2020, 60 : E255 - E255
12345