Systolic Function in the Fontan Circulation Is Exercise, but Not Preload, Recruitable - 02/04/25
, Assami Rösner, MD, PhD c, d, Gaute Døhlen, MD, PhD a, Henrik Brun, MD, PhD a, Guro Grindheim, MD, PhD e, Kanyalak Vithessonthi, MD a, f, Mark K. Friedberg, MD, PhD g, Henrik Holmstrøm, MD, PhD a, Thomas Möller, MD, PhD aAbstract |
Background |
Fontan circulatory failure with impaired systolic function is well documented; however, its mechanisms are not fully understood. The aim of this study was to explore myocardial functional reserve in adolescent patients with Fontan circulation in response to exercise or acute preload increase.
Methods |
The study included 32 patients (median age, 16.7 years; range, 15.4–17.9 years; 12 female patients) with Fontan circulation. Echocardiographic imaging was performed during exercise using a recumbent cycle ergometer and during heart catheterization with a rapid infusion of 0.9% saline infusion at 5 mL/kg body weight. Myocardial peak longitudinal strain (LS) was measured in a four-chamber view during specific time intervals before, during, and after exercise (LSstress) and volume load (LScath). During catheterization, central venous pressure and ventricular end-diastolic pressure were simultaneously recorded. A control group of 16 healthy individuals participated in the exercise test.
Results |
Mean LSstress was less negative for patients than for control subjects (P ≤ .001 at all stages); however, it significantly improved from −18.4 ± 5.5% at baseline to −22.0 ± 6.5% (P = .004) at maximal loading. LSstress at maximal loading did not correlate with changes in heart rate. During catheterization, mean LScath was −19.6 ± 6.0% at baseline and did not improve significantly at 1.00 to 2.00 minutes and at 4.00 to 6.00 minutes after saline infusion. In more than half of the patients, LScath worsened or improved by less than −2% after saline infusion. Worsening of LScath correlated with central venous pressure and ventricular end-diastolic pressure in all conditions (P ≤ .017). There was no difference in LSstress or LScath between the morphologic right ventricle and the morphologic left ventricle.
Conclusions |
Patients with Fontan circulation demonstrate systolic myocardial functional reserve that can be recruited with exercise stress but not with an acute increase in preload.
Le texte complet de cet article est disponible en PDF.Central Illustration |
The Fontan circulation: myocardial deformation response to exercise and preload. We aimed to study the systolic myocardial functional reserve of the single ventricle using echocardiographic LS assessment during exercise and/or an intravenous volume challenge. We found that the single ventricle has contractile reserves that are recruitable during exercise but less so than in healthy individuals, despite a similar heart rate and blood pressure response. During an intravenous volume challenge, the contractile response was blunted and had a negative correlation with VEDP.
The Fontan circulation: myocardial deformation response to exercise and preload. We aimed to study the systolic myocardial functional reserve of the single ventricle using echocardiographic LS assessment during exercise and/or an intravenous volume challenge. We found that the single ventricle has contractile reserves that are recruitable during exercise but less so than in healthy individuals, despite a similar heart rate and blood pressure response. During an intravenous volume challenge, the contractile response was blunted and had a negative correlation with VEDP.
Central IllustrationThe Fontan circulation: myocardial deformation response to exercise and preload. We aimed to study the systolic myocardial functional reserve of the single ventricle using echocardiographic LS assessment during exercise and/or an intravenous volume challenge. We found that the single ventricle has contractile reserves that are recruitable during exercise but less so than in healthy individuals, despite a similar heart rate and blood pressure response. During an intravenous volume challenge, the contractile response was blunted and had a negative correlation with VEDP.Le texte complet de cet article est disponible en PDF.
Highlights |
• | During exercise, GLS increases in single ventricles but is lower than in controls. |
• | During volume load, GLS is unchanged in single ventricles. |
• | GLS response during exercise differs between single LVs and single RVs. |
• | GLS response during volume load is negatively correlated to VEDP. |
Keywords : Fontan circulation, Myocardial function, Myocardial peak longitudinal strain, Exercise echocardiography, Preload challenge
Abbreviations : CVP, GLS, LS, LV, RV, RVE, VEDP
Plan
| Dr. Diab’s research employment was supported by a doctoral grant from the South-Eastern Norway Health Authority (grant 2021015). The research project and Dr Möller’s research employment were supported by a postdoctoral research grant from the South-Eastern Norway Health Authority (grant 2014077). |
Vol 38 - N° 4
P. 342-352 - avril 2025 Retour au numéro
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