Title :
Pressure gradient determination by three dimensional Doppler ultrasound [medical haemodynamics]
Author :
Gardiner, W.M. ; Fox, M.D.
Author_Institution :
Dept. of Electr. & Syst. Eng., Connecticut Univ., Storrs, CT, USA
Abstract :
A three-dimensional formulation was used to quantitate the maximal velocity in a flow jet produced by circulating a Doppler acoustic fluid through a Pasteur pipette in an open recirculating system. The flow jet velocity, as determined from the three-dimensional vector magnitude, was 119.7±3.17 cm/s; the actual velocity of 119.6 cm/s was determined with an Aalborg ball flowmeter. Doppler velocities for calculation of pressure using the Bernoulli equation were within 3.9% of actual jet stream velocities. The three-dimensional ultrasound Doppler velocity of a flow jet detemined at the site of the maximal pressure gradient should lead to a more accurate determination of pressure drop through a structure, stenosis, or septal defect using the Bernoulli equation
Keywords :
Doppler effect; biomedical ultrasonics; haemodynamics; jets; 3D Doppler ultrasound; Aalborg ball flowmeter; Bernoulli equation; Pasteur pipette; flow jet maximal velocity; open recirculating system; pressure gradient determination; septal defect; stenosis; Blood flow; Closed-form solution; Doppler shift; Equations; Lesions; Pressure measurement; Probes; Ultrasonic imaging; Ultrasonic variables measurement; Velocity measurement;
Conference_Titel :
Bioengineering Conference, 1988., Proceedings of the 1988 Fourteenth Annual Northeast
Conference_Location :
Durham, NH
DOI :
10.1109/NEBC.1988.19402
