Abstract
Cardiovascular remodeling induced by intrauterine growth restriction manifests in adulthood by more globular ventricles, as evidenced by in vivo measurements. The angle between the dominant vectors of the QRS and T-wave loops has been reported to be significantly altered as a result of the induced remodeling. To investigate whether the more globular ventricular shape was a major factor contributing to such alteration, we performed electrophysiological simulations in a human biventricular model for control and in a model obtained by deforming the control one to represent a more spherical left ventricle (SLV). Transmural ventricular heterogeneities and a Purkinje network were included. 12-lead ECGs were calculated, from which spatial QRS and T-wave angles were computed. The angle between the T-wave and the XZ-plane was found to increase in the SLV model, showing a variation similar to that reported in in vivo studies. However, the angle between the dominant vectors of the QRS and T-wave loops projected onto the XY-plane was lower for control, contrary to clinical observations in IUGR adults. Other clinical results could not be reproduced in our simulations either. Our findings suggest that a more globular left ventricular shape leads to changes in the angles of QRS and T-wave loops, but further research is needed to fully understand these changes and the underlying mechanisms.
Highlights
Intrauterine growth restriction (IUGR) and low birth weight are factors predisposing to increased risk of heart disease in adulthood [1]
IUGR is associated with cardiovascular remodeling, which manifests by more globular ventricles when assessed by the sphericity index, defined as the ratio between the base-to-apex length and the basal diameter
The control model had a sphericity index of 1.54, whereas the spherical left ventricle (SLV) model 1.32, which is in line with the mean IUGR-related sphericity change reported in [2]
Summary
Intrauterine growth restriction (IUGR) and low birth weight are factors predisposing to increased risk of heart disease in adulthood [1]. Previous studies on electrocardiographic (ECG) signals from adult individuals who suffered IUGR have shown that the angle between QRS and T-wave dominant vectors is significantly different than in control individuals, possibly reflecting the cardiovascular remodeling subsequent to IUGR [3]. Such changes have been suggested to be associated with higher cardiovascular mortality [1]. Over vectorcardiogram signals generated from standard 12-lead ECGs, statistically significant differences between individuals who suffered IUGR and controls were found in the angle between the dominant vector of the QRS-complex and the dominant vector of T-wave projected on the frontal plane [3] These variations were postulated as possible markers of IUGR-induced cardiovascular risk. From the simulated electrical activity in each of the two geometries, ECG signals were calculated and the angles between the dominant vectors of the QRS-complex
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