TY - JOUR
T1 - Radionuclide ventriculography and central aorta pressure change in noninvasive assessment of myocardial performance
AU - Marmor, A.
AU - Sharir, T.
AU - Shlomo, I. B.
AU - Beyar, R.
AU - Frenkel, A.
AU - Front, D.
PY - 1989/10
Y1 - 1989/10
N2 - Systolic pressure-volume diagrams were obtained noninvasively by measuring the systolic central aortic pressure with a new device and by combining the pressure measurements, thus obtained, with absolute volume measurements obtained by radionuclide ventriculography during ejection. By dividing the peak power by the time elapsed from the beginning of ejection to the peak power point, the ejection rate of change of power (ERCP) was calculated. The ability of this index to assess left ventricular function at rest and exercise was evaluated in ten healthy subjects. ERCP proved to be more sensitive than global left ventricular ejection fraction increasing fivefold from rest to exercise compared with only 20% increase in global ejection fraction. ERCP increased dramatically postexercise from 3411 ± 2173 to 18162 ± 14633 gm/sec2, median 12750, 95% confidence interval 9700-29600, in healthy, while in patients it increased twofold from 2637 ± 824 to 5062 ± 1897 gm/sec2, median 4070, 95% confidence interval 2800-7030, p<0.001). ERCP had an excellent discriminative power in differentiating healthy subjects from patients, having 100% sensitivity, 90% specificity, 95% accuracy, 95% positive predictive value, and 90% negative predictive value. Thus, this noninvasive index seems to have a more comprehensive ability to evaluate changes in left ventricular function and shows a promising potential for clinical applications.
AB - Systolic pressure-volume diagrams were obtained noninvasively by measuring the systolic central aortic pressure with a new device and by combining the pressure measurements, thus obtained, with absolute volume measurements obtained by radionuclide ventriculography during ejection. By dividing the peak power by the time elapsed from the beginning of ejection to the peak power point, the ejection rate of change of power (ERCP) was calculated. The ability of this index to assess left ventricular function at rest and exercise was evaluated in ten healthy subjects. ERCP proved to be more sensitive than global left ventricular ejection fraction increasing fivefold from rest to exercise compared with only 20% increase in global ejection fraction. ERCP increased dramatically postexercise from 3411 ± 2173 to 18162 ± 14633 gm/sec2, median 12750, 95% confidence interval 9700-29600, in healthy, while in patients it increased twofold from 2637 ± 824 to 5062 ± 1897 gm/sec2, median 4070, 95% confidence interval 2800-7030, p<0.001). ERCP had an excellent discriminative power in differentiating healthy subjects from patients, having 100% sensitivity, 90% specificity, 95% accuracy, 95% positive predictive value, and 90% negative predictive value. Thus, this noninvasive index seems to have a more comprehensive ability to evaluate changes in left ventricular function and shows a promising potential for clinical applications.
UR - http://www.scopus.com/inward/record.url?scp=0024442550&partnerID=8YFLogxK
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C2 - 2795206
AN - SCOPUS:0024442550
SN - 0161-5505
VL - 30
SP - 1657
EP - 1665
JO - Journal of Nuclear Medicine
JF - Journal of Nuclear Medicine
IS - 10
ER -