Congenital conotruncal heart defects (CCHD) are a subset of serious congenital heart defects (CHD) of the cardiac outflow tracts or great arteries. Its frequency is estimated in 1/1000 live births, accounting for approximately 10–30% of all CHD cases. Chromosomal abnormalities and copy number variants (CNVs) contribute to the disease risk in patients with syndromic and/or non-syndromic forms. Although largely studied in several populations, their frequencies are barely reported for Latin American countries. The aim of this study was to analyze chromosomal abnormalities, 22q11 deletions, and other genomic imbalances in a group of Argentinean patients with CCHD of unknown etiology. A cohort of 219 patients with isolated CCHD or associated with other major anomalies were referred from different provinces of Argentina. Cytogenetic studies, Multiplex-Ligation-Probe-Amplification (MLPA) and fluorescent in situ hybridization (FISH) analysis were performed. No cytogenetic abnormalities were found. 22q11 deletion was found in 23.5% of the patients from our cohort, 66% only had CHD with no other major anomalies. None of the patients with transposition of the great vessels (TGV) carried the 22q11 deletion. Other 4 clinically relevant CNVs were also observed: a distal low copy repeat (LCR)D-E 22q11 duplication, and 17p13.3, 4q35 and TBX1 deletions. In summary, 25.8% of CCHD patients presented imbalances associated with the disease.
Chromosomal trisomies are the most frequent major chromosomal anomalies in humans and can be present in a mosaic or a non-mosaic constitution. We report the first case of a newborn girl presenting with multiple congenital anomalies and a double mosaic trisomy involving chromosome 14 and the X chromosome detected by array CGH. Karyotype analysis revealed a double mosaic with 2 independent abnormal cell lines and the absence of 46,XX and 48,XXX,+14 cell lineages. The patient showed most of the clinical characteristics of mosaic trisomy 14. Analysis of autosomal DNA markers in the proband's blood sample did not support the presence of chimerism. Further analysis of chromosome X DNA markers suggests that the extra X chromosome most probably arose as a consequence of nondisjunction in meiosis II in the maternal lineage.
Congenital anomalies (CA) affect 3–5% of newborns, representing the second-leading cause of infant mortality in Argentina. Multiple congenital anomalies (MCA) have a prevalence of 2.26/1000 births in newborns, while congenital heart diseases (CHD) are the most frequent CA with a prevalence of 4.06/1000 births. The aim of this study was to identify the genetic causes in Argentinian patients with MCA and isolated CHD. We recruited 366 patients (172 with MCA and 194 with isolated CHD) born between June 2015 and August 2019 at public hospitals. DNA from peripheral blood was obtained from all patients, while karyotyping was performed in patients with MCA. Samples from patients presenting conotruncal CHD or DiGeorge phenotype (n = 137) were studied using MLPA. Ninety-three samples were studied by array-CGH and 18 by targeted or exome next-generation sequencing (NGS). A total of 240 patients were successfully studied using at least one technique. Cytogenetic abnormalities were observed in 13 patients, while 18 had clinically relevant imbalances detected by array-CGH. After MLPA, 26 patients presented 22q11 deletions or duplications and one presented a TBX1 gene deletion. Following NGS analysis, 12 patients presented pathogenic or likely pathogenic genetic variants, five of them, found in KAT6B, SHH, MYH11, MYH7 and EP300 genes, are novel. Using an algorithm that combines molecular techniques with clinical and genetic assessment, we determined the genetic contribution in 27.5% of the analyzed patients.
In this work, we aim to identify the genetic causes of pathogenesis in Argentinean patients with multiple congenital anomalies (MCA) and isolated Congenital Heart Disease (iCHD). We recruited 174 MCA and 194 iCHD patients from 15 public hospitals. Karyotyping was performed for MCA patients, and MLPA for conotruncal CHD or suspected 2q11 Deletion Syndrome (22q11DS). Selected samples were analyzed by array-CGH (Comparative genomic hybridization) (n = 89) and/or Next-Generation Sequencing (NGS) (n = 18). We successfully analyzed 252/368 patients: 14 had cytogenetic abnormalities, 27 had imbalances in 22q11, and 16 had other clinically relevant copy number variations (CNVs). NGS revealed 12 relevant nucleotide variants (five novels). Combining molecular, clinical and genetic evaluations, the diagnostic yield was 26.2%.
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