Application of high-resolution array comparative genomic hybridization in children with unknown syndromic microcephaly

• Published in: Pediatric research Vol. 82; no. 2; pp. 253 - 260
• Main Authors: Tsoutsou, Eirini, Tzetis, Maria, Giannikou, Krinio, Braoudaki, Maria, Mitrakos, Anastasis, Amenta, Stella, Selenti, Nikoletta, Kanavakis, Emmanouil, Zafeiriou, Dimitrios, Kitsiou-Tzeli, Sophia, Fryssira, Helena
• Format: Journal Article
• Language: English
• Published: New York Nature Publishing Group US 01.08.2017; Nature Publishing Group
• Subjects: 631/208/720; 692/617/375/2764; 692/700/1720/3187; Child; Cohort Studies; Comparative Genomic Hybridization - methods; Female; Humans; Karyotyping; Male; Medicine; Medicine & Public Health; Microcephaly; Microcephaly - genetics; Neurology; Pediatric Surgery; Pediatrics; Syndrome; translational-investigation
• ISSN: 0031-3998; 1530-0447
• DOI: 10.1038/pr.2017.65

Backround Microcephaly can either be isolated or it may coexist with other neurological entities and/or multiple congenital anomalies, known as syndromic microcephaly. Although many syndromic cases can be classified based on the characteristic phenotype, some others remain uncertain and require further investigation. The present study describes the application of array-comparative genomic hybridization (array-CGH) as a diagnostic tool for the study of patients with clinically unknown syndromic microcephaly. Methods From a cohort of 210 unrelated patients referred with syndromic microcephaly, we applied array-CGH analysis in 53 undiagnosed cases. In all the 53 cases except one, previous standard karyotype was negative. High-resolution 4 × 180K and 1 × 244K Agilent arrays were used in this study. Results In 25 out of the 53 patients with microcephaly among other phenotypic anomalies, array-CGH revealed copy number variations (CNVs) ranging in size between 15 kb and 31.6 Mb. The identified CNVs were definitely causal for microcephaly in 11/53, probably causal in 7/53, and not causal for microcephaly in 7/53 patients. Genes potentially contributing to brain deficit were revealed in 16/53 patients. Conclusions Array-CGH contributes to the elucidation of undefined syndromic microcephalic cases by permitting the discovery of novel microdeletions and/or microduplications. It also allows a more precise genotype–phenotype correlation by the accurate definition of the breakpoints in the deleted/duplicated regions.