TY - JOUR
T1 - Exercise echocardiography demonstrates biventricular systolic dysfunction and reveals decreased left ventricular contractile reserve in children after tetralogy of Fallot repair
AU - Roche, S. Lucy
AU - Grosse-Wortmann, Lars
AU - Friedberg, Mark K.
AU - Redington, Andrew N.
AU - Stephens, Derek
AU - Kantor, Paul F.
N1 - Funding Information:
This study was supported by a SickKids Foundation Grant (Toronto, ON, Canada) and the Canadian Institutes of Health Research (Ottawa, ON, Canada). Dr Roche received financial support from the Philip Witchel Heart Failure Research Fellowship (Toronto, ON, Canada) and the British Congenital Cardiac Association’s Madeleine Steel Fellowship (London, United Kingdom).
Publisher Copyright:
Copyright 2015 by the American Society of Echocardiography.
Copyright:
Copyright 2017 Elsevier B.V., All rights reserved.
PY - 2015
Y1 - 2015
N2 - Background: Long-term biventricular systolic performance is a key determinant of clinical outcomes late after tetralogy of Fallot (TOF) repair. A need exists for early indices of both left ventricular (LV) and right ventricular (RV) compromise in this population. Methods: Twenty-nine children (age range, 5-18 years) with repaired TOF and 44 healthy controls were prospectively evaluated. M-mode and tissue Doppler data were obtained for each ventricle and the RV outflow tract at rest and during semisupine bicycle exercise. By making measurements of myocardial acceleration during isovolumic contraction during exercise, at increasing heart rates, LV force-frequency curves were constructed. Patients also underwent cardiac magnetic resonance imaging, cardiopulmonary exercise testing, and measurement of serum neurohormonal markers. Results: Children with repaired TOF had dilated right ventricles (RV end-diastolic volume index = 153 ± 37.3 mL/m2) but normal ejection fractions as measured on magnetic resonance imaging (LV ejection fraction = 59.3 ± 6.2%, RV ejection fraction = 50.2 ± 8.5%) and normal serum neurohormonal markers. Detailed resting echocardiography detected abnormal ventricular function, worst in the right ventricle and RV outflow tract. Exercise exacerbated these findings and provoked significant decline in LV indices. The LV force-frequency curves of patients were attenuated, with an early plateau and inadequate increase of isovolumic contraction. Correlations were seen between peak exercise LV isovolumic contraction and percentage predicted peak oxygen uptake (r = 0.51, P = .02), LV and RV ejection fractions (r = 0.41, P = .03), and RV and LV long-axis fractional shortening (r = 0.44, P = .02). Conclusions: The postsurgical pathophysiology of TOF begins early after repair. At a time when clinically well and while routine indices of heart function remain normal, children with repaired TOF exhibit RV dilatation and subtle, interlinked biventricular abnormalities on resting echocardiography. Exercise echocardiography provides additional information and reveals abnormal LV excitation-contractile coupling that may be linked to impaired exercise capacity.
AB - Background: Long-term biventricular systolic performance is a key determinant of clinical outcomes late after tetralogy of Fallot (TOF) repair. A need exists for early indices of both left ventricular (LV) and right ventricular (RV) compromise in this population. Methods: Twenty-nine children (age range, 5-18 years) with repaired TOF and 44 healthy controls were prospectively evaluated. M-mode and tissue Doppler data were obtained for each ventricle and the RV outflow tract at rest and during semisupine bicycle exercise. By making measurements of myocardial acceleration during isovolumic contraction during exercise, at increasing heart rates, LV force-frequency curves were constructed. Patients also underwent cardiac magnetic resonance imaging, cardiopulmonary exercise testing, and measurement of serum neurohormonal markers. Results: Children with repaired TOF had dilated right ventricles (RV end-diastolic volume index = 153 ± 37.3 mL/m2) but normal ejection fractions as measured on magnetic resonance imaging (LV ejection fraction = 59.3 ± 6.2%, RV ejection fraction = 50.2 ± 8.5%) and normal serum neurohormonal markers. Detailed resting echocardiography detected abnormal ventricular function, worst in the right ventricle and RV outflow tract. Exercise exacerbated these findings and provoked significant decline in LV indices. The LV force-frequency curves of patients were attenuated, with an early plateau and inadequate increase of isovolumic contraction. Correlations were seen between peak exercise LV isovolumic contraction and percentage predicted peak oxygen uptake (r = 0.51, P = .02), LV and RV ejection fractions (r = 0.41, P = .03), and RV and LV long-axis fractional shortening (r = 0.44, P = .02). Conclusions: The postsurgical pathophysiology of TOF begins early after repair. At a time when clinically well and while routine indices of heart function remain normal, children with repaired TOF exhibit RV dilatation and subtle, interlinked biventricular abnormalities on resting echocardiography. Exercise echocardiography provides additional information and reveals abnormal LV excitation-contractile coupling that may be linked to impaired exercise capacity.
KW - Echocardiography
KW - Exercise
KW - Pediatric cardiology
KW - Tetralogy of Fallot
KW - Ventricular function
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U2 - 10.1016/j.echo.2014.10.008
DO - 10.1016/j.echo.2014.10.008
M3 - Article
C2 - 25459500
AN - SCOPUS:84964247758
SN - 0894-7317
VL - 28
SP - 294
EP - 301
JO - Journal of the American Society of Echocardiography
JF - Journal of the American Society of Echocardiography
IS - 3
ER -