Asymmetry of Doppler spectrum in stenosis differentiation
- 1 September 1989
- journal article
- research article
- Published by Springer Nature in Medical & Biological Engineering & Computing
- Vol. 27 (5) , 456-462
- https://doi.org/10.1007/bf02441461
Abstract
The asymmetry of the spectral distribution of ultrasonic Doppler flow velocity signals, assessed using the coefficient of skewness, is discussed as a criterion of stenosis differentiation. Its performance is compared with that of the index of turbulence intensity for both in vitro and in vivo flow Doppler signals, recorded distal to a stenosis. The power spectral distributions are computed using the direct Fourier transform and maximum likelihood method. The asymmetry of spectral distribution has proved to be a more efficient criterion than the turbulence intensity. The maximum likelihood method ensures better stenosis differentiation than the direct FFT method.This publication has 23 references indexed in Scilit:
- In vitro study of continuous wave doppler spectral changes resulting from stenoses and bulbsUltrasound in Medicine & Biology, 1987
- Spatial and temporal resolution of aortic Doppler blood velocity signals in normal human subjectsUltrasound in Medicine & Biology, 1985
- Doppler power frequency spectrum analysis in the diagnosis of carotid artery disease.Stroke, 1984
- Ultrasonic doppler spectral broadening in the diagnosis of internal carotid artery stenosisUltrasound in Medicine & Biology, 1983
- Quantitative analysis of carotid artery Doppler spectral waveforms: Diagnostic value of parametersUltrasound in Medicine & Biology, 1983
- Measurement of fluid turbulence based on pulsed ultrasound techniques. Part 2. Experimental investigationJournal of Fluid Mechanics, 1982
- A quantitative method for the evaluation of spectral analysis patterns in carotid artery stenosisUltrasound in Medicine & Biology, 1982
- Spectral analysis of Doppler velocity patterns in normals and patients with carotid artery stenosisClinical Physiology and Functional Imaging, 1981
- The propagation of turbulence produced by a stenosisJournal of Biomechanics, 1980
- Turbulent velocity measurements in a model of aortic stenosisJournal of Biomechanics, 1976