3-D flow velocity vector estimation with a triple-beam lens transducer-experimental results

Current commercial ultrasound blood flow measurement systems only measure the axial component of the true blood flow velocity vector. In order to overcome this limitation, a technique which tracks blood cell scatterers as they move between three ultrasound beams has been developed. With this technique, the entire 3-D blood flow velocity vector can be estimated. Previous work has presented the theory behind the technique, lens transducer design and construction, as well as results of computer simulations and preliminary experimental results. This work presents the first experimental results obtained with a prototype system for continuous, fully developed flow in a flow phantom under a wide range of flow rates and flow directions. The results indicate that the accurate measurement of the 3-D flow velocity vector using this technique is possible.

[1]  M. Fox Multiple crossed-beam ultrasound Doppler velocimetry , 1978 .

[2]  W. Wei-qi,et al.  A double beam Doppler ultrasound method for quantitative blood flow velocity measurement. , 1982, Ultrasound in medicine & biology.

[3]  G. Trahey,et al.  Angle Independent Ultrasonic Detection of Blood Flow , 1987, IEEE Transactions on Biomedical Engineering.

[4]  V. Newhouse,et al.  Ultrasound Doppler Probing of Flows Transverse with Respect to Beam Axis , 1987, IEEE Transactions on Biomedical Engineering.

[5]  M. Nikoonahad,et al.  Ultrasound transverse flow measurement with high lateral resolution , 1988, IEEE 1988 Ultrasonics Symposium Proceedings..

[6]  W. M. Gardiner,et al.  Three-dimensional Doppler velocimetry of flow jets , 1988, IEEE Transactions on Biomedical Engineering.

[7]  Flow velocity field tomography using multiple ultrasonic beam detectors and high‐order correlation analysis , 1989 .

[8]  M. Nikoonahad A Possibility for Ultrasound Flow Measurement with Microscopic Resolution , 1989 .

[9]  I. Akiyama,et al.  Movement Analysis Using B-Mode Images , 1989 .

[10]  Tadashi Tamura,et al.  Determination of 2-D velocity vectors using color Doppler ultrasound , 1990, IEEE Symposium on Ultrasonics.

[11]  W. Moritz,et al.  A triangulation method for the quantitative measurement of arterial blood velocity magnitude and direction in humans. , 1990, Ultrasound in medicine & biology.

[12]  W. O’Brien,et al.  Volumetric blood flow via time-domain correlation: experimental verification , 1990, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[13]  W. O’Brien,et al.  Flow velocity profile via time-domain correlation: error analysis and computer simulation , 1990, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[14]  H. F. Routh,et al.  Preliminary studies into high velocity transverse blood flow measurement , 1990, IEEE Symposium on Ultrasonics.

[15]  D.H. Turnbull,et al.  Beam steering with pulsed two-dimensional transducer arrays , 1991, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[16]  3-D velocity field measurement using multiple ultrasonic plane detections and high-order correlation analysis , 1990, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[17]  D. Cathignol,et al.  Study of vector flow estimation with transverse Doppler , 1991, IEEE 1991 Ultrasonics Symposium,.

[18]  P. Picot,et al.  Quantitative three-dimensional true velocity colour Doppler imaging , 1991, IEEE 1991 Ultrasonics Symposium,.

[19]  H. Ermert,et al.  Phased array pulse Doppler tomography , 1991, IEEE 1991 Ultrasonics Symposium,.

[20]  Daniel H. Turnbull,et al.  Fabrication and characterization of transducer elements in two-dimensional arrays for medical ultrasound imaging , 1991, IEEE 1991 Ultrasonics Symposium,.

[21]  W. O’Brien,et al.  A flexible blood flow phantom capable of independently producing constant and pulsatile flow with a predictable spatial flow profile for ultrasound flow measurement validations , 1992, IEEE Transactions on Biomedical Engineering.

[22]  S.W. Smith,et al.  Two-dimensional array transducers using hybrid connection technology , 1992, IEEE 1992 Ultrasonics Symposium Proceedings.

[23]  S.W. Smith,et al.  Two-dimensional arrays for medical ultrasound , 1991, IEEE 1991 Ultrasonics Symposium,.

[24]  K. Beach,et al.  Vector Doppler: accurate measurement of blood velocity in two dimensions. , 1992, Ultrasound in medicine & biology.

[25]  W.D. O'Brien,et al.  A real-time ultrasound time-domain correlation blood flowmeter. I. Theory and design , 1993, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[26]  P. Carson,et al.  Approximate quantification of detected fractional blood volume and perfusion from 3-D color flow and Doppler power signal imaging , 1993, 1993 Proceedings IEEE Ultrasonics Symposium.

[27]  A Fenster,et al.  Three-dimensional colour Doppler imaging. , 1993, Ultrasound in medicine & biology.

[28]  W. O’Brien,et al.  A real-time ultrasound time-domain correlation blood flowmeter. II. Performance and experimental verification , 1993, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[29]  J. Greenleaf,et al.  A study of two-dimensional array transducers for limited diffraction beams , 1994, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[30]  D. Fei,et al.  Angle independent Doppler color imaging: determination of accuracy and a method of display. , 1994, Ultrasound in medicine & biology.

[31]  David Vilkomerson,et al.  Diffractive transducers for angle-independent velocity measurements , 1994, 1994 Proceedings of IEEE Ultrasonics Symposium.

[32]  D. Cathignol,et al.  Three-dimensional vector flow estimation using two transducers and spectral width , 1994, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[33]  T. A. Maniatis,et al.  Two-dimensional velocity reconstruction strategies for color flow Doppler ultrasound images. , 1994, Ultrasound in medicine & biology.

[34]  P J Phillips,et al.  Feasibility study for a two-dimensional diagnostic ultrasound velocity mapping system. , 1995, Ultrasound in medicine & biology.

[35]  I. Hein,et al.  Triple-beam lens transducers for three-dimensional ultrasonic fluid flow estimation , 1995, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[36]  V L Newhouse,et al.  Demonstration of three-dimensional vector flow estimation using bandwidth and two transducers on a flow phantom. , 1995, Ultrasound in medicine & biology.

[37]  Ultrasonic vector velocity measurement by projection Computed Velocimetry , 1995, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[38]  K.W. Ferrara,et al.  High resolution 3D color flow mapping of breast vasculature , 1995, 1995 IEEE Ultrasonics Symposium. Proceedings. An International Symposium.

[39]  B. Friemel,et al.  Experimental velocity profiles and volumetric flow via two-dimensional speckle tracking. , 1995, Ultrasound in medicine & biology.