Copyright © 1990 by the European Society of Cardiology.
© 1990 The European Society of Cardiology
Errors in measurements of stroke volume for invasive and echo-Doppler evaluations of valvular regurgitant fractions. Clinical evaluation and computer simulation Intra-arterial blood pressure monitoring in the evaluation of the hypertensive athlete
Division of Cardiology, University of Bari Bari, Italy
Received 20 October 1989; revised 6 June 1989; .
Address for Correspondence: Sabino Iliceto, MD, Division of Cardiology, Policlinico, University of Bari, 70124 Bari, Italy
Abstract
The aim of this study was to compare cardiac catheterization (CATH) with 2D echo-Doppler (ED) in clinically evaluating the stroke volumes (SV) needed to calculate aortic and mitral regurgitant fractions (aortic and mitral SV for the ED method, thermodilution and angiographic SVfor the CA TH). As there is no ‘gold standard’ for this kind of measurement, only subjects without valvular regurgitation were considered. In these subjects, though the two SV measurements needed to calculate the regurgitant volume should have been identical, there was, in fact a difference due to the systematic and random errors of the methods. We calculated the mean value and the standard deviation of this difference in a series of patients without valvular regurgitation in order to obtain an estimate of both systematic and random errors.In 20 patients studied by ED a difference of 11.9±16.7 ml was found. In 36 patients studied by cardiac catheterization the difference was 19.6 ± 20.1 ml. A significant systematic error was found for both ED and the invasive method; The transmitral SV tended to be larger than the aortic and the angiographic SV larger than that obtained by thermodilution.To try to determine the extent to which the random errors could be attributed to the reproducibility of the measurements, we carried out computer simulations. The SVs of 50 000 hypothetical patients were randomly generated and then attributed a random error calculated on the basis of the variability of the CA TH (thermodilution 4%, angiography 10%) and the ED measurements (aortic annulus 6%, mitral annulus 18%, mitral time velocity integral 10%, aortic time velocity integral 8%). We obtained a simulated difference of 0.92 ± 14.7 for ED and of 0.12 ±8.4 for CATH. Mean values of simulated differences are obviously close to zero, because of the absence of systematic error. The simulated and observed random errors for the ED method were not statistically different, while a significant difference was found between the real and the simulated value for the CA TH. This can be explained by taking other sources of error into consideration (differences between the angiographic and thermodilution techniques, invasive techniques interfering with haemodynamic parameters).It can be concluded that the determination of the S Vs has too high a margin of error in both methods for it to be used in clinical practice for evaluating the RF. For the ED, this error is mainly due to inaccuracy in the anatomic and flow velocity measurements whereas, with CA TH, it is partly due to measurement reproducibility and partly to the method itself
Key Words: Regurgitant fraction • echo-Doppler
CiteULike 
Connotea 
Del.icio.us What's this?
This article has been cited by other articles:
|
|
 |
|
  M. Sadik, B. Rundqvist, N. Selimovic, and O. Bech-Hanssen Improved stroke volume assessment in the aortic and mitral valves with a new method in subjects without regurgitation Eur J Echocardiogr, June 1, 2005; 6(3): 210 - 218. [Abstract] [Full Text] [PDF]
|
|
|
|
 |
|
 A. Rossi, G. Golia, G. Gasparini, M. A. Prioli, M. Anselmi, and P. Zardini Left atrial filling volume can be used to reliably estimate the regurgitant volume in mitral regurgitation J. Am. Coll. Cardiol., January 1, 1999; 33(1): 212 - 217. [Abstract] [Full Text] [PDF]
|
|
|
|
|
|
C. M. Tribouilloy, M. Enriquez-Sarano, S. L. Fett, K. R. Bailey, J. B. Seward, and A. J. Tajik Application of the proximal flow convergence method to calculate the effective regurgitant orifice area in aortic regurgitation J. Am. Coll. Cardiol., October 1, 1998; 32(4): 1032 - 1039. [Abstract] [Full Text] [PDF]
|
|
|
|
 |
|
 M. Enriquez-Sarano, L. J. Sinak, A. J. Tajik, K. R. Bailey, and J. B. Seward Changes in Effective Regurgitant Orifice Throughout Systole in Patients With Mitral Valve Prolapse : A Clinical Study Using the Proximal Isovelocity Surface Area Method Circulation, November 15, 1995; 92(10): 2951 - 2958. [Abstract] [Full Text]
|
|