Title :
A scheme to correct for electric field non-uniformity in right ventricular volume measurement using a conductance catheter
Author :
Gopakumaran, B. ; Petre, JH ; Osborn, P. ; Murray, PA
Author_Institution :
Cleveland Clinic Found., OH, USA
Abstract :
A finite element model of a right ventricle and a conductance catheter was developed to understand the effects of electric field non-uniformity in conductance volumetry. Simulations showed that the measured volumes were underestimated by non-uniformity of the electric field. Volume underestimation diminished at smaller ventricular volumes and larger catheter curvatures. Correction factors to adjust for field non-uniformity were established for different ventricular volumes and catheter positions. These factors when applied to conductance volumes in in vitro canine hearts reduced the measurement error from 8.3+/-18.6% before correction to -1.3+/-6.3% after correction
Keywords :
bioelectric phenomena; biomedical measurement; cardiology; electric admittance measurement; finite element analysis; measurement errors; physiological models; volume measurement; catheter curvature; catheter position; conductance catheter; correction factors; electric field nonuniformity correction scheme; finite element modeling; in vitro canine hearts; right ventricular volume measurement; ventricular volume; volume underestimation; Catheters; Electric variables measurement; Electrodes; Equations; Finite element methods; Heart; In vitro; Nonuniform electric fields; Shape; Volume measurement;
Conference_Titel :
Computers in Cardiology 1998
Conference_Location :
Cleveland, OH
Print_ISBN :
0-7803-5200-9
DOI :
10.1109/CIC.1998.731964
