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Literature DB >> 17225815

An ultrasound research interface for a clinical system.

Shelby S Brunke¹, Michael F Insana, Jeremy J Dahl, Christian Hansen, Mohammad Ashfaq, Helmut Ermert.

Abstract

Under a contract with the National Cancer Institute, we have developed a research interface to an ultrasound system. This ultrasound research interface (URI) is an optional feature providing several basic capabilities not normally available on a clinical scanner. The URI can store high-quality beamformed radio-frequency data to file for off-line processing. Also, through an integrated user interface, the user is provided additional control over the B-mode receive aperture and color flow ensemble size. A third major capability is the ability to record and playback macro files. In this paper, we describe the URI and illustrate its use on three research examples: elastography, computed tomography, and spatial compounding.

Mesh：

Year: 2007 PMID： 17225815 DOI： 10.1109/tuffc.2007.226

Source DB: PubMed Journal: IEEE Trans Ultrason Ferroelectr Freq Control ISSN： 0885-3010 Impact factor: 2.725

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Cited

34 in total

1. A Pilot Comparative Study of Quantitative Ultrasound, Conventional Ultrasound, and MRI for Predicting Histology-Determined Steatosis Grade in Adult Nonalcoholic Fatty Liver Disease.

Authors: Jeremy S Paige; Gregory S Bernstein; Elhamy Heba; Eduardo A C Costa; Marilia Fereirra; Tanya Wolfson; Anthony C Gamst; Mark A Valasek; Grace Y Lin; Aiguo Han; John W Erdman; William D O'Brien; Michael P Andre; Rohit Loomba; Claude B Sirlin
Journal: AJR Am J Roentgenol Date: 2017-03-07 Impact factor: 3.959

2. Material properties from acoustic radiation force step response.

Authors: Marko Orescanin; Kathleen S Toohey; Michael F Insana
Journal: J Acoust Soc Am Date: 2009-05 Impact factor: 1.840

3. Low Variance Estimation of Backscatter Quantitative Ultrasound Parameters Using Dynamic Programming.

Authors: Zara Vajihi; Ivan M Rosado-Mendez; Timothy J Hall; Hassan Rivaz
Journal: IEEE Trans Ultrason Ferroelectr Freq Control Date: 2018-09-12 Impact factor: 2.725

4. Repeatability and Reproducibility of a Clinically Based QUS Phantom Study and Methodologies.

Authors: Aiguo Han; Michael P Andre; John W Erdman; Rohit Loomba; Claude B Sirlin; William D O'Brien
Journal: IEEE Trans Ultrason Ferroelectr Freq Control Date: 2016-07-09 Impact factor: 2.725

5. Ultrasound-based relative elastic modulus imaging for visualizing thermal ablation zones in a porcine model.

Authors: Jingfeng Jiang; Chris Brace; Anita Andreano; Ryan J DeWall; Nick Rubert; Ted G Fisher; Tomy Varghese; Fred Lee; Timothy J Hall
Journal: Phys Med Biol Date: 2010-03-30 Impact factor: 3.609

6. Quantitative assessment of cervical softening during pregnancy in the Rhesus macaque with shear wave elasticity imaging.

Authors: Ivan M Rosado-Mendez; Lindsey C Carlson; Kaitlin M Woo; Andrew P Santoso; Quinton W Guerrero; Mark L Palmeri; Helen Feltovich; Timothy J Hall
Journal: Phys Med Biol Date: 2018-04-19 Impact factor: 3.609

An ultrasound research interface for a clinical system.

1. A Pilot Comparative Study of Quantitative Ultrasound, Conventional Ultrasound, and MRI for Predicting Histology-Determined Steatosis Grade in Adult Nonalcoholic Fatty Liver Disease.

2. Material properties from acoustic radiation force step response.

3. Low Variance Estimation of Backscatter Quantitative Ultrasound Parameters Using Dynamic Programming.

4. Repeatability and Reproducibility of a Clinically Based QUS Phantom Study and Methodologies.

5. Ultrasound-based relative elastic modulus imaging for visualizing thermal ablation zones in a porcine model.

6. Quantitative assessment of cervical softening during pregnancy in the Rhesus macaque with shear wave elasticity imaging.

7. Improving the statistics of quantitative ultrasound techniques with deformation compounding: an experimental study.

8. Short-lag spatial coherence of backscattered echoes: imaging characteristics.

9. Quantitative assessment of in vivo breast masses using ultrasound attenuation and backscatter.

10. In vivo application of short-lag spatial coherence imaging in human liver.