Jianren Yuan scite author profile

Objective. As are the attenuation coefficient and sound speed, the backscatter coefficient is a fundamental ultrasonic property that has been used to characterize many tissues. Unfortunately, there is currently far less standardization for the ultrasonic backscatter measurement than for the other two, as evidenced by a previous American Institute of Ultrasound in Medicine (AIUM)-sponsored interlaboratory comparison of ultrasonic backscatter, attenuation, and speed measurements (J Ultrasound Med 1999; 18:615-631). To explore reasons for these disparities, the AIUM Endowment for Education and Research recently supported this second interlaboratory comparison, which extends the upper limit of the frequency range from 7 to 9 MHz. Methods. Eleven laboratories were provided with standard test objects designed and manufactured at the University of Wisconsin (Madison, WI). Each laboratory was asked to perform ultrasonic measurements of sound speed, attenuation coefficients, and backscatter coefficients. Each laboratory was blinded to the values of the ultrasonic properties of the test objects at the time the measurements were performed. Results. Eight of the 11 laboratories submitted results. The range of variation of absolute magnitude of backscatter coefficient measurements was about 2 orders of magnitude. If the results of 1 outlier laboratory are excluded, then the range is reduced to about 1 order of magnitude. Agreement regarding frequency dependence of backscatter was better than reported in the previous interlaboratory comparison. For example, when scatterers were small compared with the ultrasonic wavelength, experimental frequency-dependent backscatter coefficient data obtained by the participating laboratories were usually consistent with the expected Rayleigh scattering behavior (proportional to frequency to the fourth power). Conclusions. Greater standardization of backscatter measurement methods is needed. Measurements of frequency dependence of backscatter are more consistent than measurements of absolute magnitude.

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5C-5 High Frequency Piezo Composites Microfabricated Ultrasound Transducers for Intravascular Imaging (Invited)

Yuan

Jiang

Cao

et al. 2006

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60 MHz PMN-PT based 1-3 composite transducer for IVUS imaging

Yuan

Rhee

Jiang

2008

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5I-1 Microfabrication of Piezoelectric Composite Ultrasound Transducers (PC-MUT)

Yuan

Jiang

Snook

et al. 2006

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In this paper a piezoelectric composite based micromachined ultrasound transducer (PC-MUT) fabrication technology is presented. PMN-PT single crystal posts with side length of 14 µm and height of > 60 µm were fabricated using a deep dry etching method. High frequency (20-50 MHz) PMN-PT single crystal/epoxy 1-3 composites were prepared and the electromechanical coupling coefficient of the composites was ~ 0.72. Prototype 40 MHz ultrasound transducers showed promising sensitivity and bandwidth.

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4F-5 PC-MUT Arrays for Ophthalmologic Ultrasound

Jiang

Snook

Hackengerber

et al. 2007

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Jianren Yuan

Interlaboratory Comparison of Ultrasonic Backscatter Coefficient Measurements From 2 to 9 MHz

5C-5 High Frequency Piezo Composites Microfabricated Ultrasound Transducers for Intravascular Imaging (Invited)

60 MHz PMN-PT based 1-3 composite transducer for IVUS imaging

5I-1 Microfabrication of Piezoelectric Composite Ultrasound Transducers (PC-MUT)

4F-5 PC-MUT Arrays for Ophthalmologic Ultrasound

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