Determination of left ventricular volumes by Simpson's rule in infants and children with congenital heart disease.

Regression equations were developed from left ventricular casts of known volumes to calculate left ventricular volumes from biplane cineangiography obtained in non-standard views. Volumes were calculated by Simpson's rule from casts of postmortem specimens from patients with congenital heart disease. The casts were divided into two groups: those that came from patients with abnormal right ventricular haemodynamic function (group 1, n = 11) and those that came from patients in which it was normal (group 2, n = 9). Biplane cinegrams were taken in conventional (anteroposterior/lateral, right anterior oblique/left anterior oblique) and non-conventional (long axis oblique, hepatoclavicular, and sitting up) projections. The true volume of each cast was determined from its weight and specific gravity. Correlations between measured and true volumes (r = 0.96 to 0.99) were excellent in all projections, although each projection overestimated the true volumes (slope = 0.72 to 0.94). The regression equations obtained from conventional views were significantly different from those from the non-conventional views; however, the regression slopes in group 1 were not different from those in group 2 in any view. Regression equations obtained by Simpson's rule do not seem to be affected by the haemodynamic state of the right ventricle. Different regression equations are required to measure left ventricular volumes from non-conventional angiograms.

[1]  H. Dodge,et al.  The use of biplane angiocardigraphy for the measurement of left ventricular volume in man. , 1960, American heart journal.

[2]  P. Bream,et al.  Axial cineangiography in congenital heart disease. Section I. Concept, technical and anatomic considerations. , 1977, Circulation.

[3]  R. Walsh,et al.  Accuracy of biplane axial oblique and oblique cineangiographic left ventricular cast volume determinations using a modification of Simpson's rule algorithm. , 1985, American heart journal.

[4]  P H Heintzen,et al.  Angiocardiographic left ventricular volume determination. Accuracy, as determined from human casts, and clinical application. , 1978, European journal of cardiology.

[5]  M. N. Morrow,et al.  Left Heart Volume Estimation in Infancy and Childhood: Reevaluation of Methodology and Normal Values , 1971, Circulation.

[6]  T. Graham,et al.  Right Ventricular Volume Determinations in Children: Normal Values and Observations with Volume or Pressure Overload , 1973, Circulation.

[7]  R. Pietras,et al.  Quantitative validation of cineangiographic axial oblique biplane left ventricular volume measurement. , 1987, Catheterization and cardiovascular diagnosis.

[8]  Y. Shimazaki,et al.  Angiographic volume estimation of right ventricle. Re-evaluation of the previous methods. , 1980, Chest.

[9]  J. Weiss,et al.  Ventricular size and shape by two-dimensional echocardiography. , 1981, Federation proceedings.

[10]  H Sandler,et al.  Brief Reviews: Determination of Left Ventricular Size and Shape , 1974, Circulation research.

[11]  P. Bream,et al.  Axial cineangiography in congenital heart disease. , 1981, Radiologic clinics of North America.

[12]  R. Arcilla,et al.  Angiographic method for volume estimation of right and left ventricles. , 1971, Chest.

[13]  H. M. Schey,et al.  Single versus biplane right and left ventricular volumetry: a cast and clinical study. , 1984, Catheterization and cardiovascular diagnosis.

[14]  J. Gault Angiographic estimation of left ventricular volume. , 1975, Catheterization and cardiovascular diagnosis.

[15]  A. Benchimol,et al.  Right ventricular volume in congenital heart disease. , 1975, The American journal of cardiology.

[16]  Harold Sandler,et al.  Brief Reviews: Determination of Left Ventricular Size and Shape , 1974 .