Does standoff material affect acoustic radiation force impulse elastography? A preclinical study of a modified elastography phantom
Katharina Hollerieth, Bernhard Gaßmann, Stefan Wagenpfeil, Stephan Kemmner, Uwe Heemann, Konrad Friedrich Stock
Ultrasonography. 2018;37(2):140-148.   Published online 2017 Jul 28     DOI: https://doi.org/10.14366/usg.17002
Citations to this article as recorded by Crossref logo
Shear wave elastography using high-frequency linear probe for kidney transplant monitoring: A methodological study
Daopeng Yang, Bowen Zhuang, Yanling Zheng, Ming Xu, Jinhua Lin, Xiaoer Zhang, Changxi Wang, Xiaoyan Xie, Gang Huang, Xiaohua Xie, Yan Wang
Clinical Hemorheology and Microcirculation.2023; 84(2): 165.     CrossRef
Evaluation of ultrasound point shear wave elastography reliability in an elasticity phantom
Salahaden R. Sultan, Amer Alghamdi, Rawan Abdeen, Fahad Almutairi
Ultrasonography.2022; 41(2): 291.     CrossRef
Effect of Depth on Ultrasound Point Shear Wave Elastography in an Elasticity Phantom
Fahad F. Almutairi, Rawan Abdeen, Jaber Alyami, Salahaden R. Sultan
Applied Sciences.2022; 12(13): 6295.     CrossRef
Test-retest repeatability of ultrasonographic shear wave elastography in a rat liver fibrosis model: toward a quantitative biomarker for preclinical trials
Youngbin Shin, Jimi Huh, Su Jung Ham, Young Chul Cho, Yoonseok Choi, Dong-Cheol Woo, Jeongjin Lee, Kyung Won Kim
Ultrasonography.2021; 40(1): 126.     CrossRef
Reproducibility of shear wave elastography among operators, machines, and probes in an elasticity phantom
Abdulaziz Ibrahim Alrashed, Abdulrahman M. Alfuraih
Ultrasonography.2021; 40(1): 158.     CrossRef