Breast Sonography – 2D, 3D, 4D Ultrasound or Elastography?

AbstractUltrasound (US) imaging, in contrast to other image guidance techniques, offers the distinct advantage of providing volumetric image data in real-time (4D) without using ionizing radiation. The goal of this study was to perform the first quantitative comparison of three different 4D US systems with fast matrix array probes and real-time data streaming regarding their target tracking accuracy and system latency. Sinusoidal motion of varying amplitudes and frequencies was used to simulate breathing motion with a robotic arm and a static US phantom. US volumes and robot positions were acquired online and stored for retrospective analysis. A template matching approach was used for target localization in the US data. Target motion measured in US was compared to the reference trajectory performed by the robot to determine localization accuracy and system latency. Using the robotic setup, all investigated 4D US systems could detect a moving target with sub-millimeter accuracy. However, especially high system latency increased tracking errors substantially and should be compensated with prediction algorithms for respiratory motion compensation.

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P23.04: 4D ultrasound of tongue movements during breast-feeding-would the findings lead to prenatal studies?

Ultrasound in Obstetrics and Gynecology ◽

10.1002/uog.9891 ◽

2011 ◽

Vol 38 (S1) ◽

pp. 245-246

Author(s):

J. Deng ◽

P. Burton ◽

D. McDonald ◽

R. Yates ◽

M. Fewtrell

Keyword(s):

Breast Feeding ◽

4D Ultrasound ◽

Tongue Movements

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Diagnostic Ultrasound Safety

Donald School Journal of Ultrasound in Obstetrics & Gynecology ◽

10.5005/jp-journals-10009-1353 ◽

2014 ◽

Vol 8 (2) ◽

pp. 178-183 ◽

Cited By ~ 1

Author(s):

Kazuo Maeda

Keyword(s):

Obstet Gynecol ◽

Physical Property ◽

Diagnostic Ultrasound ◽

Mechanical Effect ◽

Mechanical Index ◽

Pulsed Doppler ◽

Output Intensity ◽

Thermal Index ◽

4D Ultrasound ◽

Pulsed Doppler Ultrasound

ABSTRACT Ultrasound bioeffect is discussed from its physical property, i.e. thermal effect by thermal index, mechanical effect by mechanical index, and by the output intensity of ultrasound. Generally, thermal and mechanical indices should be lower than 1 in obstetrical setting, and threshold output intensity of no bioeffect is lower than SPTA 240 mW/cm2 in pulse wave. Pulsed Doppler ultrasound thermal and mechanical indices should be also lower than 1, and should be carefully used it in 11 to 13+6 weeks of pregnancy. Real-time B-mode, transvaginal scan, pulsed Doppler, 3D and 4D ultrasound were separately discussed in the ultrasound safety. Generally diagnostic ultrasound is safe for the fetus and embryo, if thermal and mechanical indices are lower than 1, and ultrasound devices are safe, if it is used under official limitation, e.g. the output intensity is less than SPTA 10 mW/cm2 in Japan. The ultrasound user is responsible ultrasound safety, e.g. higher thermal and mechanical indices than 1 should be lowered to be lower than 1, controlling the device output intensity. The user should learn bioeffects of ultrasound and prudent use of ultrasound under the ALARA principle. How to cite this article Maeda K, Kurjak A. Diagnostic Ultrasound Safety. Donald School J Ultrasound Obstet Gynecol 2014;8(2):178-183.

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