An experimental evaluation of the use of an ensemble average for the calculation of turbulence in pulsatile flow

Walburn, F. J.; Sabbah, Hani N.; Stein, Paul D.

doi:10.1007/bf02584215

Cited by 17 publications

(11 citation statements)

References 10 publications

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“…Peak and mean velocities were traced over 10 cardiac cycles. Acquisitions were prospectively gated so that each spectral parameter calculated for each interrogation site can be averaged over 10 cardiac cycles to give an ensemble average (Walburn et al 1983). The ensemble average from 10 complete cycles was calculated for v mean , v peak and SBI, as well as the root-mean-square (RMS) deviation in the 10 contributing values for each of these parameters at each time point in the ensemble average.…”

Section: Flow Measurements Using Doppler Ultrasoundmentioning

confidence: 99%

Flow Patterns in Carotid Bifurcation Models Using Pulsed Doppler Ultrasound: Effect of Concentric vs. Eccentric Stenosis on Turbulence and Recirculation

Poepping

Rankin

Holdsworth

2010

Ultrasound in Medicine & Biology

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Section: Flow Measurements Using Doppler Ultrasoundmentioning

confidence: 99%

Flow Patterns in Carotid Bifurcation Models Using Pulsed Doppler Ultrasound: Effect of Concentric vs. Eccentric Stenosis on Turbulence and Recirculation

Poepping

Rankin

Holdsworth

2010

Ultrasound in Medicine & Biology

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“…Several methods which account for cycle-to-cycle variation have been used to calculate the mean periodic velocity (Rask 1981, Walburn et al 1983, Liou & Santavicca 1985. In each case, some technique is used to identify the mean pulse.…”

Section: List Of Symbolsmentioning

confidence: 99%

“…In the latter, a digital low-pass filter was used to separate the mean periodic signal of each cycle from the turbulent fluctuations. This filter technique is similar to that of Walburn et al (1983) for determining the mean periodic signal. However, Walburn et al reported turbulent…”

Section: List Of Symbolsmentioning

confidence: 99%

Cycle-to-cycle variation effects on turbulent shear stress measurements in pulsatile flows

Tiederman

Privette

Phillips

1988

Experiments in Fluids

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Accurate evaluation of turbulent velocity statistics in pulsatile flows is important in estimating potential damage to blood constituents from prosthetic heart valves. Variations in the mean flow from one cycle to the next can result in artificially high estimates. Here we demonstrate a procedure using a digital, low-pass filter to remove the cycle-to-cycle variation from turbulence statistics. The results show that cycle-to-cycle variations can significantly affect estimates of turbulent Reynolds stress and should be either eliminated or demonstrated to be small when reporting pulsatile flow results.

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“…Turbulence is one such hemodynamic phenomenon that is of particular interest, as it has been shown that turbulence near vessel stenoses have been implicated as a risk for thromboembolic stroke [4] and as a potential indicator of significant stenoses [8,9]. The most popular method for quantifying turbulence by Doppler ultrasound is turbulence intensity (TI), which directly measures incoherent fluctuating velocity components [10][11][12][13]. It is possible to quantify TI through ensemble averaging or through frequency filtering methods, where both of these analytical methods are used to decompose the Doppler signal into coherent pulsatile fluctuations and incoherent turbulent fluctuations.…”

Section: Introductionmentioning

confidence: 99%

Quantification of turbulence intensity in patients with symptomatic carotid atherosclerosis: a pilot study

Thorne¹,

Rankin²,

Poepping³

et al. 2010

SPIE Proceedings

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The most widely performed test for patients suspected of having carotid atherosclerosis is Doppler ultrasound (DUS). Unfortunately, limitations in sensitivity and specificity prevent DUS from being the sole diagnostic tool. Novel DUS velocity-derived parameters, such as turbulence intensity (TI), may provide enhanced hemodynamic information within the carotid artery, increasing diagnostic accuracy. In this study, we evaluate a new technique for recording, storing and analyzing DUS in a clinical environment, and determine the correlation between TI and conventional DUS measurements. We have recruited 32 patients with a mean age of 69±11 yrs. An MP3 recorder was used to digitally record Doppler audio signals three times at three sites: the common carotid artery, peak stenosis and region of maximum turbulence. A Fourier-based technique was used to calculate TI, facilitating clinical application without additional ECGgating data. TI was calculated as the standard deviation of Fourier-filtered mean velocity data. We found that TI and clinical PSV were linearly dependent (P<0.001) within the region of maximum turbulence and the precision of all TI measurements was found to be 14%. We have demonstrated the ability to record Doppler waveform data during a conventional carotid exam, and apply off-line custom analysis to Doppler velocity data to produce measurements of TI.

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An experimental evaluation of the use of an ensemble average for the calculation of turbulence in pulsatile flow

Cited by 17 publications

References 10 publications

Flow Patterns in Carotid Bifurcation Models Using Pulsed Doppler Ultrasound: Effect of Concentric vs. Eccentric Stenosis on Turbulence and Recirculation

Flow Patterns in Carotid Bifurcation Models Using Pulsed Doppler Ultrasound: Effect of Concentric vs. Eccentric Stenosis on Turbulence and Recirculation

Cycle-to-cycle variation effects on turbulent shear stress measurements in pulsatile flows

Quantification of turbulence intensity in patients with symptomatic carotid atherosclerosis: a pilot study

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