PURPOSE: To evaluate the clinical utility of chromosomal microarrays for prenatal diagnosis by a prospective study of fetuses with abnormalities detected on ultrasound. METHODS: Patients referred for prenatal diagnosis due to ultrasound anomalies underwent analysis by array comparative genomic hybridization as the first-tier diagnostic test. RESULTS: A total of 383 prenatal samples underwent analysis by array comparative genomic hybridization. Array analysis revealed causal imbalances in a total of 9.6% of patients (n = 37). Submicroscopic copy-number variations were detected in 2.6% of patients (n = 10/37), and arrays added valuable information over conventional karyotyping in 3.9% of patients (n = 15/37). We highlight a novel advantage of arrays; a 500-kb paternal insertional translocation is the likely driver of a de novo unbalanced translocation, thus improving recurrence risk calculation in this family. Variants of uncertain significance were revealed in 1.6% of patients (n = 6/383). CONCLUSION: We demonstrate the added value of chromosomal microarrays for prenatal diagnosis in the presence of ultrasound anomalies. We advocate reporting back only copy-number variations with known pathogenic significance. Although this approach might be considered opposite to the ideal of full reproductive autonomy of the parents, we argue why providing all information to parents may result in a false sense of autonomy.
PURPOSE: To evaluate the clinical utility of chromosomal microarrays for prenatal diagnosis by a prospective study of fetuses with abnormalities detected on ultrasound. METHODS: Patients referred for prenatal diagnosis due to ultrasound anomalies underwent analysis by array comparative genomic hybridization as the first-tier diagnostic test. RESULTS: A total of 383 prenatal samples underwent analysis by array comparative genomic hybridization. Array analysis revealed causal imbalances in a total of 9.6% of patients (n = 37). Submicroscopic copy-number variations were detected in 2.6% of patients (n = 10/37), and arrays added valuable information over conventional karyotyping in 3.9% of patients (n = 15/37). We highlight a novel advantage of arrays; a 500-kb paternal insertional translocation is the likely driver of a de novo unbalanced translocation, thus improving recurrence risk calculation in this family. Variants of uncertain significance were revealed in 1.6% of patients (n = 6/383). CONCLUSION: We demonstrate the added value of chromosomal microarrays for prenatal diagnosis in the presence of ultrasound anomalies. We advocate reporting back only copy-number variations with known pathogenic significance. Although this approach might be considered opposite to the ideal of full reproductive autonomy of the parents, we argue why providing all information to parents may result in a false sense of autonomy.
Authors: Barbara A Bernhardt; Katherine Kellom; Alexandra Barbarese; W Andrew Faucett; Ronald J Wapner Journal: J Genet Couns Date: 2014-02-27 Impact factor: 2.537
Authors: Baran Bayindir; Luc Dehaspe; Nathalie Brison; Paul Brady; Simon Ardui; Molka Kammoun; Lars Van der Veken; Klaske Lichtenbelt; Kris Van den Bogaert; Jeroen Van Houdt; Hilde Peeters; Hilde Van Esch; Thomy de Ravel; Eric Legius; Koen Devriendt; Joris R Vermeesch Journal: Eur J Hum Genet Date: 2015-01-14 Impact factor: 4.246