M Rodríguez-López1,2, M Cruz-Lemini1,2,3,4, B Valenzuela-Alcaraz1,2, L Garcia-Otero1,2, M Sitges5, B Bijnens6,7, E Gratacós1,2, F Crispi1,2. 1. BCNatal-Barcelona Center for Maternal-Fetal and Neonatal Medicine, Hospital Clínic and Hospital Sant Joan de Déu, IDIBAPS, University of Barcelona, Barcelona, Spain. 2. Centre for Biomedical Research on Rare Diseases (CIBER-ER), Barcelona, Spain. 3. Fetal Medicine and Surgery Research Unit, Children and Women's Hospital of Querétaro, Querétaro, Mexico. 4. Neurodevelopmental Research Unit 'Dr. Augusto Fernández Guardiola', Neurobiology Institute, Universidad Nacional Autónoma de México (UNAM) Campus Juriquilla, Querétaro, Mexico. 5. Cardiovascular Institute, Hospital Clínic, IDIBAPS, Barcelona, Spain. 6. ICREA, Barcelona, Spain. 7. Universitat Pompeu Fabra, Barcelona, Spain.
Abstract
OBJECTIVE: To identify different cardiac phenotypes among cases of fetal growth restriction (FGR). METHODS: Echocardiography was performed in 126 cases with FGR (birth weight < 10th centile) and 64 appropriate-for-gestational-age (AGA) fetuses. Principal component and cluster analyses were performed to identify different cardiac phenotypes among FGR cases. RESULTS: Three different cardiac phenotypes were identified among the FGR group: globular in 54% of cases, elongated in 29% of cases and hypertrophic in 17% of cases. Those with a globular heart had the lowest median left-ventricular sphericity index (controls, 1.78 (interquartile range (IQR), 1.62-1.97); FGR elongated, 1.92 (IQR, 1.78-2.09); FGR globular, 1.44 (IQR, 1.36-1.52); FGR hypertrophic, 1.65 (IQR, 1.42-1.77); P = 0.001). FGR cases with an elongated left ventricle had nearly normal cardiac dimensions. FGR cases with a hypertrophic phenotype had the highest median left-ventricular wall thickness (controls, 1.22 (IQR, 1.10-1.67) mm/kg; FGR elongated, 1.52 (IQR, 1.28-1.86) mm/kg; FGR globular, 1.65 (IQR, 1.39-1.99) mm/kg; FGR hypertrophic, 3.68 (IQR, 3.45-4.71) mm/kg; P = 0.001) and cardiac dimensions. Globular and elongated phenotypes showed a fetoplacental profile of late-onset FGR, while the hypertrophic phenotype showed signs of early-onset FGR. The hypertrophic group also had the poorest perinatal results, having the lowest birth-weight centile, gestational age at delivery and Apgar score and the highest postnatal blood pressure and aorta intima-media thickness. CONCLUSIONS: FGR induces at least three different cardiac phenotypes, with early-onset FGR cases being associated with a hypertrophic response and worse perinatal outcomes. This cardiac phenotypic classification may improve identification of FGR cases with the highest perinatal and long-term cardiovascular risks.
OBJECTIVE: To identify different cardiac phenotypes among cases of fetal growth restriction (FGR). METHODS: Echocardiography was performed in 126 cases with FGR (birth weight < 10th centile) and 64 appropriate-for-gestational-age (AGA) fetuses. Principal component and cluster analyses were performed to identify different cardiac phenotypes among FGR cases. RESULTS: Three different cardiac phenotypes were identified among the FGR group: globular in 54% of cases, elongated in 29% of cases and hypertrophic in 17% of cases. Those with a globular heart had the lowest median left-ventricular sphericity index (controls, 1.78 (interquartile range (IQR), 1.62-1.97); FGR elongated, 1.92 (IQR, 1.78-2.09); FGR globular, 1.44 (IQR, 1.36-1.52); FGR hypertrophic, 1.65 (IQR, 1.42-1.77); P = 0.001). FGR cases with an elongated left ventricle had nearly normal cardiac dimensions. FGR cases with a hypertrophic phenotype had the highest median left-ventricular wall thickness (controls, 1.22 (IQR, 1.10-1.67) mm/kg; FGR elongated, 1.52 (IQR, 1.28-1.86) mm/kg; FGR globular, 1.65 (IQR, 1.39-1.99) mm/kg; FGR hypertrophic, 3.68 (IQR, 3.45-4.71) mm/kg; P = 0.001) and cardiac dimensions. Globular and elongated phenotypes showed a fetoplacental profile of late-onset FGR, while the hypertrophic phenotype showed signs of early-onset FGR. The hypertrophic group also had the poorest perinatal results, having the lowest birth-weight centile, gestational age at delivery and Apgar score and the highest postnatal blood pressure and aorta intima-media thickness. CONCLUSIONS: FGR induces at least three different cardiac phenotypes, with early-onset FGR cases being associated with a hypertrophic response and worse perinatal outcomes. This cardiac phenotypic classification may improve identification of FGR cases with the highest perinatal and long-term cardiovascular risks.
Authors: Maria Felicia Faienza; Flavia Urbano; Giuseppe Lassandro; Federica Valente; Gabriele D'Amato; Piero Portincasa; Paola Giordano Journal: Int J Environ Res Public Health Date: 2022-07-07 Impact factor: 4.614