TY - JOUR
T1 - Does volume catheter parallel conductance vary during a cardiac cycle?
AU - Lankford, E. B.
AU - Kass, D. A.
AU - Maughan, W. L.
AU - Shoukas, A. A.
PY - 1990
Y1 - 1990
N2 - Absolute left ventricular volume measurement by the conductance (volume) catheter requires subtraction of the conductance contribution from structures extrinsic to the cavity blood pool. Previously, this parallel conductance volume (V(p)) has been assumed constant throughout the cardiac cycle, and the technique described for its estimation in situ yields a single value. We present a new method for parallel conductance determination that yields multiple estimates during systole, enabling an assessment of V(p) variability [V(p)(t)]. For isolated blood-perfused ejecting canine left ventricles with empty (vented) right ventricles, V(p)(t) displayed virtually no variation throughout systole. For in situ hearts, despite the presence of other cardiac chambers, V(p)(t) also displayed little variation, with no statistically significant deviation from its mean value throughout systole. Volume signal simulations found the new technique to be less sensitive to signal noise and thus more robust than the one previously published. The isolated and in situ heart data indicate that for the left ventricle, the parallel conductance is relatively constant throughout normal ejection.
AB - Absolute left ventricular volume measurement by the conductance (volume) catheter requires subtraction of the conductance contribution from structures extrinsic to the cavity blood pool. Previously, this parallel conductance volume (V(p)) has been assumed constant throughout the cardiac cycle, and the technique described for its estimation in situ yields a single value. We present a new method for parallel conductance determination that yields multiple estimates during systole, enabling an assessment of V(p) variability [V(p)(t)]. For isolated blood-perfused ejecting canine left ventricles with empty (vented) right ventricles, V(p)(t) displayed virtually no variation throughout systole. For in situ hearts, despite the presence of other cardiac chambers, V(p)(t) also displayed little variation, with no statistically significant deviation from its mean value throughout systole. Volume signal simulations found the new technique to be less sensitive to signal noise and thus more robust than the one previously published. The isolated and in situ heart data indicate that for the left ventricle, the parallel conductance is relatively constant throughout normal ejection.
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U2 - 10.1152/ajpheart.1990.258.6.h1933
DO - 10.1152/ajpheart.1990.258.6.h1933
M3 - Article
C2 - 2360681
AN - SCOPUS:0025277221
SN - 0002-9513
VL - 258
SP - H1933-H1942
JO - American Journal of Physiology - Heart and Circulatory Physiology
JF - American Journal of Physiology - Heart and Circulatory Physiology
IS - 6 27-6
ER -