Multifrequency vibro-acoustography

Urban, Matthew W.; Silva, G.T.; Fatemi, Mostafa

doi:10.1109/tmi.2006.882142

Cited by 42 publications

(26 citation statements)

References 33 publications

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“…This method has been used in later studies for quantification of the viscoelastic material properties of gelatin materials. 3,4 Norris studied the impedance of a vibrating sphere in an elastic medium when slip was present or absent by adding an interfacial impedance to account for this condition. 5 Ilinskii et al derived relationships for the static and transient displacement responses of a sphere and a bubble embedded in an elastic medium.…”

Section: Introductionmentioning

confidence: 99%

Generalized response of a sphere embedded in a viscoelastic medium excited by an ultrasonic radiation force

Urban

Nenadic

Mitchell

et al. 2011

The Journal of the Acoustical Society of America

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The response of an embedded sphere in a viscoelastic medium excited by acoustic radiation force has been studied in both the time-and frequency-domains. This model is important because it can be used to characterize the viscoelastic properties of the medium by fitting the response to the theoretical model. The Kelvin-Voigt model has been used exclusively in these models. An extension to the previously reported models is described so that any viscoelastic rheological model can be used. This theoretical development describes the generalized embedded sphere response both in the time and frequency domains. Comparing the results from derivations in both domains showed very good agreement with a median absolute error (MAE) ranging from 0.0044 to 0.0072. Good agreement is demonstrated with finite element model simulations and the theory with a MAE of 0.006. Lastly, results for characterization of gelatin and rubber materials with the new theory are shown where the MAE values were used to determine which rheological model best describes the measured responses.

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Section: Introductionmentioning

confidence: 99%

Generalized response of a sphere embedded in a viscoelastic medium excited by an ultrasonic radiation force

Urban

Nenadic

Mitchell

et al. 2011

The Journal of the Acoustical Society of America

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“…Vibro-acoustography has taken advantage of this multifrequency radiation force using DSB-SC AM waveforms to create multiple images from one scan. 28 Another method called shear wave dispersion ultrasound vibrometry ͑SDUV͒ uses square wave modulation to transmit multiple tonebursts of ultrasound at the frequency of the square wave f r , and then elicits shear waves with components at harmonics of f r . 25 The shear wave velocity is estimated at f r and several of its harmonics to estimate the shear wave velocity dispersion and characterize the viscoelastic material properties of the tissue or medium.…”

Section: Discussionmentioning

confidence: 99%

“…28. We modulated an ultrasound signal with different functions and derived the radiation force with the pressure from the needle hydrophone measurements.…”

Section: Methodsmentioning

confidence: 99%

Modulation of ultrasound to produce multifrequency radiation force

Urban

Fatemi

2010

The Journal of the Acoustical Society of America

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Dynamic radiation force has been used in several types of applications, and is performed by modulating ultrasound with different methods. By modulating ultrasound, energy can be transmitted to tissue, in this case a dynamic force to elicit a low frequency cyclic displacement to inspect the material properties of the tissue. In this paper, different types of modulation are explored including amplitude modulation ͑AM͒, double sideband suppressed carrier amplitude modulation AM, linear frequency modulation, and frequency-shift keying. Generalized theory is presented for computing the radiation force through the short-term time average of the energy density for these various types of modulation. Examples of modulation with different types of signals including sine waves, square waves, and triangle waves are shown. Using different modulating signals, multifrequency radiation force with different numbers of frequency components can be created, and can be used to characterize tissue mimicking materials and soft tissue. Results for characterization of gelatin phantoms using a method of vibrating an embedded sphere are presented. Different degrees of accuracy were achieved using different modulation techniques and modulating signals. Modulating ultrasound is a very flexible technique to produce radiation force with multiple frequency components that can be used for various applications.

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“…VA is an imaging modality based on ultrasound-stimulated acoustic emission [1][2][3][4][5]. VA uses the force caused by the beating of two frequencies to generate an acoustic emission signal, (Fig.…”

Section: Introductionmentioning

confidence: 99%

“…In order to form a 2D image, the whole area is covered by raster scanning motion of the confocal transducer. Whereas, the stimulation frequency is generally on the order of MHz, the difference frequency (acoustic [5]. However, there is no theoretical limitation on difference frequency, and it can be adjusted to suit the application.…”

Section: Introductionmentioning

confidence: 99%