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Brain volumes in adults with congenital heart disease correlate with executive function abilities

Nadja Naef, Ladina Schlosser, Peter Brugger, Matthias Greutmann, Angela Oxenius, Flavia M. Wehrle, Raimund Kottke, Beatrice Latal, Ruth Tuura O’Gorman

2021Brain Imaging and Behavior34 citationsDOIOpen Access PDF

Abstract

Abstract Congenital heart disease is the most common birth defect, and patients are at risk for neurodevelopmental impairment and brain abnormalities. Yet, little is known about the link between brain volumes and cognitive function in adults with congenital heart disease. Forty-four patients and 53 controls between 18 and 32 years underwent brain magnetic resonance imaging and cognitive testing, assessed with an intelligence quotient and executive function global score. Associations between brain volumes and cognitive function were calculated using linear models. Cognitive function in patients was within the normal range (intelligence quotient: 97.74 (10.76)). Total brain volume was significantly smaller in patients compared to controls (1067.26 (113.53) vs 1113.04 (97.88) cm 3 , P < 0.01), irrespective of cardiac factors (heart defect complexity, cyanosis, cardiopulmonary bypass: all P > 0.4). After adjusting for total brain volume, only corpus callosum volume remained significantly smaller ( P = 0.03). Smaller total brain volume was associated with poorer overall executive functioning ( P = 0.02) and inhibition ( P < 0.01), in both patients and controls. The association between total brain volume and overall executive functioning was moderated by parental socioeconomic status (lower socioeconomic status was associated with a stronger association between brain volume and EF; interaction P = 0.03). In adults with congenital heart disease, despite normal intelligence quotient, brain volume alterations persist into adulthood and are related to executive functioning, in particular inhibitory control. Adults coming from low socioeconomic background and with altered brain volumes are especially vulnerable and should thus be followed-up during adulthood to ensure optimal social and educational support.

Topics & Concepts

NeuropsychologyHeart diseaseExecutive functionsPsychologyMedicineNeuroradiologyDiseaseNeurologyCardiologyDevelopmental psychologyCognitionNeuroscienceInternal medicineCongenital Heart Disease StudiesCoronary Artery AnomaliesVascular anomalies and interventions
Brain volumes in adults with congenital heart disease correlate with executive function abilities | Litcius