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Shear Wave Dispersion in Lean Versus Steatotic Rat Livers
Author(s) -
Barry Christopher T.,
Hazard Christopher,
Hah Zaegyoo,
Cheng Gang,
Partin Alexander,
Mooney Robert A.,
Chuang Kuang-Hsiang,
Cao Wenqing,
Rubens Deborah J.,
Parker Kevin J.
Publication year - 2015
Publication title -
journal of ultrasound in medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.574
H-Index - 91
eISSN - 1550-9613
pISSN - 0278-4297
DOI - 10.7863/ultra.34.6.1123
Subject(s) - medicine , dispersion (optics) , shear (geology) , steatosis , viscoelasticity , in vivo , morbidly obese , mechanics , obesity , physics , composite material , optics , biology , materials science , microbiology and biotechnology , weight loss
Objectives The precise measurement of fat accumulation in the liver, or steatosis, is an important clinical goal. Our previous studies in phantoms and mouse livers support the hypothesis that, starting with a normal liver, increasing accumulations of microsteatosis and macrosteatosis will increase the lossy viscoelastic properties of shear waves in a medium. This increase results in an increased dispersion (or slope) of the shear wave speed in the steatotic livers. Methods In this study, we moved to a larger animal model, lean versus obese rat livers ex vivo, and a higher‐frequency imaging system to estimate the shear wave speed from crawling waves. Results The results showed elevated dispersion in the obese rats and a separation of the lean versus obese liver parameters in a 2‐dimensional parameter space of the dispersion (slope) and shear wave speed at a reference frequency of 150 Hz. Conclusions We have confirmed in 3 separate studies the validity of our dispersion hypothesis in animal models.