Effects of changes in ventricular size on regional and surface QRS amplitudes in the conscious dog.
- 1 July 1980
- journal article
- research article
- Published by Ovid Technologies (Wolters Kluwer Health) in Circulation
- Vol. 62 (1), 174-180
- https://doi.org/10.1161/01.cir.62.1.174
Abstract
Eight conscious dogs instrumented with wall thickness sonomicrometers and 11 subcutaneous electrodes in modified McFee vectorcardiographic array were studied during changes in ventricular volume. Simultaneous measurements were made of QRS amplitudes of the endocardial and epicardial ECG, QRS spatial vector magnitudes (SVM), end-diastolic wall thickness (EFT), end-systolic wall thickness (EST) and the amount of systolic thickening (.DELTA.WT). Ventricular size was decreased by atropine and infusion of 0.02 .mu.g/kg per min of isoproterenol to increase the mean heart rate from 81 .+-. 5 beats/min (mean .+-. SEM [standard error of the mean]) to 174 .+-. 10 beats/min (P < 0.001) and was reflected by an increased mean EDT (9.06 .+-. 0.64 mm to 9.94 .+-. 0.61 mm, P < 0.005). The endocardial QRS amplitude increased in each dog (mean increase 21.55 .+-. 1.36 mV to 25.13 .+-. 1.35 mV, P < 0.001), whereas the SVM decreased from 7.69 .+-. 0.75 mV to 6.18 .+-. 0.48 mV (P < 0.02). Ventricular size was then increased by rapid saline infusion and was reflected by a decrease of EDT from 9.65 .+-. 0.66 mm to 9.09 .+-. 0.66 mm (P < 0.001), while heart rate remained unchanged. Endocardial amplitude decreased in each dog (average decrease 3.59 .+-. 0.25 mV, P < 0.001) while the SVM increased in each dog (average increase 0.81 .+-. 0.18 mV, P < 0.005). The mean epicardial amplitudes did not change significantly during increases or decreases in ventricular volume. In each dog there was a linear relation between EDT and endocardial amplitudes (r values > 0.88) and an inverse linear relation between EDT and SVM (r values > -0.80). The relations between EST or .DELTA.WT and regional and QRS surface amplitudes were nonlinear. In the conscious dog changes in endocardial QRS amplitudes and SVM respond in an opposite manner to changes in ventricular volume. In this experimental model, alterations in endocardial QRS amplitudes were related directly to changes in diastolic wall thickness; changes in body surface QRS amplitudes were inversely related to wall thickness, a finding that may relate in part to alterations in the distance of the heart from the chest wall.This publication has 22 references indexed in Scilit:
- Computerized orthogonal electrocardiogram: Relation of QRS forces to left ventricular ejection fractionThe American Journal of Cardiology, 1978
- Ventricular endocardial potentials after experimental coronary artery occlusion in dogsAmerican Heart Journal, 1971
- Changes in the body's QRS surface potentials produced by alterations in certain compartments of the nonhomogeneous conducting modelAmerican Heart Journal, 1969
- The significance of foreleg positions in the interpretation of electrocardiograms and vectorcardiograms from research animalsAmerican Heart Journal, 1968
- “Body surface” potentials produced by the eccentric dipole in the heart wall of the nonhomogeneous volume conductorAmerican Heart Journal, 1963
- Model studies on the effect of the intracardiac blood on the electrocardiogramAmerican Heart Journal, 1961
- An orthogonal lead system for clinical electrocardiographyAmerican Heart Journal, 1961
- QRS component of the spatial vectorcardiogram and of the spatial magnitude and velocity electrocardiograms of the normal dogThe American Journal of Cardiology, 1960
- Studies on the mechanism of ventricular activity. XII. Early changes in the RS-T segment and QRS complex following acute coronary artery occlusion: Experimental study and clinical applicationsAmerican Heart Journal, 1954
- The ventricular complex in left ventricular hypertrophy as obtained by unipolar precordial and limb leadsAmerican Heart Journal, 1949