Your search keyword '"Brison, Nathalie"' showing total 8 results

1. Noninvasive prenatal testing using a novel analysis pipeline to screen for all autosomal fetal aneuploidies improves pregnancy management

Author

Bayindir, Baran, Dehaspe, Luc, Brison, Nathalie, Brady, Paul, Ardui, Simon, Kammoun, Molka, van der Veken, Lars, Lichtenbelt, Klaske, van den Bogaert, Kris, van Houdt, Jeroen, Peeters, Hilde, van Esch, Hilde, de Ravel, Thomy, Legius, Eric, Devriendt, Koen, Vermeesch, Joris R., Bayindir, Baran, Dehaspe, Luc, Brison, Nathalie, Brady, Paul, Ardui, Simon, Kammoun, Molka, van der Veken, Lars, Lichtenbelt, Klaske, van den Bogaert, Kris, van Houdt, Jeroen, Peeters, Hilde, van Esch, Hilde, de Ravel, Thomy, Legius, Eric, Devriendt, Koen, and Vermeesch, Joris R.

Published

2015

2. Noninvasive prenatal testing using a novel analysis pipeline to screen for all autosomal fetal aneuploidies improves pregnancy management

Author

Genetica Sectie Genoomdiagnostiek, Cancer, Genetica Klinische Genetica, Child Health, Bayindir, Baran, Dehaspe, Luc, Brison, Nathalie, Brady, Paul, Ardui, Simon, Kammoun, Molka, van der Veken, Lars, Lichtenbelt, Klaske, van den Bogaert, Kris, van Houdt, Jeroen, Peeters, Hilde, van Esch, Hilde, de Ravel, Thomy, Legius, Eric, Devriendt, Koen, Vermeesch, Joris R., Genetica Sectie Genoomdiagnostiek, Cancer, Genetica Klinische Genetica, Child Health, Bayindir, Baran, Dehaspe, Luc, Brison, Nathalie, Brady, Paul, Ardui, Simon, Kammoun, Molka, van der Veken, Lars, Lichtenbelt, Klaske, van den Bogaert, Kris, van Houdt, Jeroen, Peeters, Hilde, van Esch, Hilde, de Ravel, Thomy, Legius, Eric, Devriendt, Koen, and Vermeesch, Joris R.

Published

2015

3. Expanding the phenotype of copy number variations involving NR0B1 (DAX1).

Author

Veyt N, Van Buggenhout G, Devriendt K, Van Den Bogaert K, and Brison N

Subjects

Adult, Female, Humans, Male, Disorders of Sex Development genetics, DNA Copy Number Variations, Phenotype, DAX-1 Orphan Nuclear Receptor genetics, Gonadal Dysgenesis, 46,XY genetics

Abstract

46,XY gonadal dysgenesis (GD) is a disorder of sex development due to incomplete gonadal differentiation into testes, resulting in female to ambiguous external genitalia. Duplications at the Xp21.2 locus involving the NR0B1 (DAX1) gene have previously been associated with 46,XY GD. More recently, a complex structural variant not directly involving NR0B1 has been reported in 46,XY GD illustrating that the mechanism of how copy number variants (CNVs) at Xp21.2 may cause 46,XY gonadal dysgenesis is not yet fully understood. Here, we report on three families in which a duplication involving the NR0B1 gene was detected in the context of prenatal screening. This is the first report of duplications involving NR0B1 in three phenotypically normal males in two families. Fertility problems were present in one adult male carrier. The data reported here from an unbiased screening population broaden the phenotype associated with CNVs involving NR0B1, and this may aid clinicians in counseling and decision making in the prenatal context., (© 2024. The Author(s), under exclusive licence to European Society of Human Genetics.)

Published

2024

4. Population screening for 15q11-q13 duplications: corroboration of the difference in impact between maternally and paternally inherited alleles.

Author

Parijs I, Brison N, Vancoillie L, Baetens M, Blaumeiser B, Boulanger S, Désir J, Dimitrov B, Fieremans N, Janssens K, Janssens S, Marichal A, Menten B, Meunier C, Van Berkel K, Van Den Bogaert A, Devriendt K, Van Den Bogaert K, and Vermeesch JR

Subjects

Pregnancy, Child, Humans, Female, Alleles, Phenotype, Chromosomes, Human, Pair 15 genetics, Paternal Inheritance, Mothers

Abstract

Maternally inherited 15q11-q13 duplications are generally found to cause more severe neurodevelopmental anomalies compared to paternally inherited duplications. However, this assessment is mainly inferred from the study of patient populations, causing an ascertainment bias towards patients at the more severe end of the phenotypic spectrum. Here, we analyze the low coverage genome-wide cell-free DNA sequencing data obtained from pregnant women during non-invasive prenatal screening (NIPS). We detect 23 15q11-q13 duplications in 333,187 pregnant women (0.0069%), with an approximately equal distribution between maternal and paternal duplications. Maternally inherited duplications are always associated with a clinical phenotype (ranging from learning difficulties to intellectual impairment, epilepsy and psychiatric disorders), while paternal duplications are normal or associated with milder phenotypes (mild learning difficulties and dyslexia). This data corroborates the difference in impact between paternally and maternally inherited 15q11-q13 duplications, contributing to the improvement of genetic counselling. We recommend reporting 15q11-q13 duplications identified during genome-wide NIPS with appropriate genetic counselling for these pregnant women in the interest of both mothers and future children., (© 2023. The Author(s), under exclusive licence to European Society of Human Genetics.)

Published

2024

5. Rare autosomal trisomies detected by non-invasive prenatal testing: an overview of current knowledge.

Author

Lannoo L, van Straaten K, Breckpot J, Brison N, De Catte L, Dimitriadou E, Legius E, Peeters H, Parijs I, Tsuiko O, Vancoillie L, Vermeesch JR, Van Buggenhout G, Van Den Bogaert K, Van Calsteren K, and Devriendt K

Subjects

Female, Pregnancy, Humans, Prospective Studies, Mosaicism, Uniparental Disomy, Prenatal Diagnosis, Trisomy diagnosis, Trisomy genetics, Placenta

Abstract

Non-invasive prenatal testing has been introduced for the detection of Trisomy 13, 18, and 21. Using genome-wide screening also other "rare" autosomal trisomies (RATs) can be detected with a frequency about half the frequency of the common trisomies in the large population-based studies. Large prospective studies and clear clinical guidelines are lacking to provide adequate counseling and management to those who are confronted with a RAT as a healthcare professional or patient. In this review we reviewed the current knowledge of the most common RATs. We compiled clinical relevant parameters such as incidence, meiotic or mitotic origin, the risk of fetal (mosaic) aneuploidy, clinical manifestations of fetal mosaicism for a RAT, the effect of confined placental mosaicism on placental function and the risk of uniparental disomy (UPD). Finally, we identified gaps in the knowledge on RATs and highlight areas of future research. This overview may serve as a first guide for prenatal management for each of these RATs., (© 2022. The Author(s), under exclusive licence to European Society of Human Genetics.)

Published

2022

6. NIPTmer: rapid k-mer-based software package for detection of fetal aneuploidies.

Author

Sauk M, Žilina O, Kurg A, Ustav EL, Peters M, Paluoja P, Roost AM, Teder H, Palta P, Brison N, Vermeesch JR, Krjutškov K, Salumets A, and Kaplinski L

Subjects

Adult, Cell-Free Nucleic Acids chemistry, Cell-Free Nucleic Acids isolation & purification, Female, Genetic Variation, High-Throughput Nucleotide Sequencing, Humans, Pregnancy, Prenatal Care, Sequence Analysis, DNA, Aneuploidy, Fetus metabolism, Genetic Testing methods, User-Computer Interface

Abstract

Non-invasive prenatal testing (NIPT) is a recent and rapidly evolving method for detecting genetic lesions, such as aneuploidies, of a fetus. However, there is a need for faster and cheaper laboratory and analysis methods to make NIPT more widely accessible. We have developed a novel software package for detection of fetal aneuploidies from next-generation low-coverage whole genome sequencing data. Our tool - NIPTmer - is based on counting pre-defined per-chromosome sets of unique k-mers from raw sequencing data, and applying linear regression model on the counts. Additionally, the filtering process used for k-mer list creation allows one to take into account the genetic variance in a specific sample, thus reducing the source of uncertainty. The processing time of one sample is less than 10 CPU-minutes on a high-end workstation. NIPTmer was validated on a cohort of 583 NIPT samples and it correctly predicted 37 non-mosaic fetal aneuploidies. NIPTmer has the potential to reduce significantly the time and complexity of NIPT post-sequencing analysis compared to mapping-based methods. For non-commercial users the software package is freely available at http://bioinfo.ut.ee/NIPTMer/ .

Published

2018

7. Variants in TTC25 affect autistic trait in patients with autism spectrum disorder and general population.

Author

Vojinovic D, Brison N, Ahmad S, Noens I, Pappa I, Karssen LC, Tiemeier H, van Duijn CM, Peeters H, and Amin N

Subjects

Female, Humans, Male, Pedigree, Phenotype, Autism Spectrum Disorder genetics, Carrier Proteins genetics, Polymorphism, Single Nucleotide

Abstract

Autism spectrum disorder (ASD) is a highly heritable neurodevelopmental disorder with a complex genetic architecture. To identify genetic variants underlying ASD, we performed single-variant and gene-based genome-wide association studies using a dense genotyping array containing over 2.3 million single-nucleotide variants in a discovery sample of 160 families with at least one child affected with non-syndromic ASD using a binary (ASD yes/no) phenotype and a quantitative autistic trait. Replication of the top findings was performed in Psychiatric Genomics Consortium and Erasmus Rucphen Family (ERF) cohort study. Significant association of quantitative autistic trait was observed with the TTC25 gene at 17q21.2 (effect size=10.2, P-value=3.4 × 10 -7 ) in the gene-based analysis. The gene also showed nominally significant association in the cohort-based ERF study (effect=1.75, P-value=0.05). Meta-analysis of discovery and replication improved the association signal (P-value meta =1.5 × 10 -8 ). No genome-wide significant signal was observed in the single-variant analysis of either the binary ASD phenotype or the quantitative autistic trait. Our study has identified a novel gene TTC25 to be associated with quantitative autistic trait in patients with ASD. The replication of association in a cohort-based study and the effect estimate suggest that variants in TTC25 may also be relevant for broader ASD phenotype in the general population. TTC25 is overexpressed in frontal cortex and testis and is known to be involved in cilium movement and thus an interesting candidate gene for autistic trait.

Published

2017

8. Noninvasive prenatal testing using a novel analysis pipeline to screen for all autosomal fetal aneuploidies improves pregnancy management.

Author

Bayindir B, Dehaspe L, Brison N, Brady P, Ardui S, Kammoun M, Van der Veken L, Lichtenbelt K, Van den Bogaert K, Van Houdt J, Peeters H, Van Esch H, de Ravel T, Legius E, Devriendt K, and Vermeesch JR

Subjects

Aneuploidy, Chromosome Aberrations, Chromosomes, Human, Pair 18 genetics, Down Syndrome genetics, Female, Fetus pathology, High-Throughput Nucleotide Sequencing methods, Humans, Placenta pathology, Pregnancy, Retrospective Studies, Trisomy genetics, Trisomy 18 Syndrome, Chromosome Disorders genetics, Chromosomes, Human genetics, Genetic Testing methods, Prenatal Diagnosis methods

Abstract

Noninvasive prenatal testing by massive parallel sequencing of maternal plasma DNA has rapidly been adopted as a mainstream method for detection of fetal trisomy 21, 18 and 13. Despite the relative high accuracy of current NIPT testing, a substantial number of false-positive and false-negative test results remain. Here, we present an analysis pipeline, which addresses some of the technical as well as the biologically derived causes of error. Most importantly, it differentiates high z-scores due to fetal trisomies from those due to local maternal CNVs causing false positives. This pipeline was retrospectively validated for trisomy 18 and 21 detection on 296 samples demonstrating a sensitivity and specificity of 100%, and applied prospectively to 1350 pregnant women in the clinical diagnostic setting with a result reported in 99.9% of cases. In addition, values indicative for trisomy were observed two times for chromosome 7 and once each for chromosomes 15 and 16, and once for a segmental trisomy 18. Two of the trisomies were confirmed to be mosaic, one of which contained a uniparental disomy cell line. As placental trisomies pose a risk for low-grade fetal mosaicism as well as uniparental disomy, genome-wide noninvasive aneuploidy detection is improving prenatal management.

Published

2015