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4. Clinical impact of additional findings detected by genome-wide non-invasive prenatal testing: Follow-up results of the TRIDENT-2 study

Author

van Prooyen Schuurman, Lisanne, Sistermans, Erik A., Van Opstal, Diane, Henneman, Lidewij, Bekker, Mireille N., Bax, Caroline J., Pieters, Mijntje J., Bouman, Katelijne, de Munnik, Sonja, den Hollander, Nicolette S., Diderich, Karin E.M., Faas, Brigitte H.W., Feenstra, Ilse, Go, Attie T.J.I., Hoffer, Mariëtte J.V., Joosten, Marieke, Komdeur, Fenne L., Lichtenbelt, Klaske D., Lombardi, Maria P., Polak, Marike G., Jehee, Fernanda S., Schuring-Blom, Heleen, Stevens, Servi J.C., Srebniak, Malgorzata I., Suijkerbuijk, Ron F., Tan-Sindhunata, Gita M., van der Meij, Karuna R.M., van Maarle, Merel C., Vernimmen, Vivian, van Zelderen-Bhola, Shama L., van Ravesteyn, Nicolien T., Knapen, Maarten F.C.M., Macville, Merryn V.E., and Galjaard, Robert-Jan H.

Published
2022
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5. The High Diagnostic Yield of Prenatal Exome Sequencing Followed by 3400 Gene Panel Analysis in 629 Ongoing Pregnancies With Ultrasound Anomalies.

Author

Diderich, Karin E. M., Bruggenwirth, Hennie T., Joosten, Marieke, Thurik, Florentine, Mijalkovic, Jona, Polak, Marike, Kromosoeto, Joan, Somers‐Bolman, Galhana M., van den Born, Myrthe, Drost, Mark, Galjaard, Robert Jan H., Galjaard, Sander, Hoefsloot, Lies H., Knapen, Maarten F. C. M., van Minkelen, Rick, van der Schoot, Vyne, van Slegtenhorst, Marjon A., Sleutels, Frank, Stuurman, Kyra E., and Weerts, Marjolein J. A.

Abstract

Background: The aim of this study was to evaluate the diagnostic yield of routine exome sequencing (ES) in fetuses with ultrasound anomalies. Methods: We performed a retrospective analysis of the ES results of 629 fetuses with isolated or multiple anomalies referred in 2019–2022. Variants in a gene panel consisting of approximately 3400 genes associated with multiple congenital anomalies and/or intellectual disability were analyzed. We used trio analysis and filtering for de novo variants, compound heterozygous variants, homozygous variants, X‐linked variants, variants in imprinted genes, and known pathogenic variants. Results: Pathogenic and likely pathogenic variants (class five and four, respectively) were identified in 14.0% (88/629, 95% CI 11.5%–16.9%) of cases. In the current cohort, the probability of detecting a monogenetic disorder was ∼1:7 (88/629, 95% CI 1:8.7–1:5.9), ranging from 1:9 (49/424) in cases with one major anomaly to 1:5 (32/147) in cases with multiple system anomalies. Conclusions: Our results indicate that a notable number of fetuses (1:7) with ultrasound anomalies and a normal chromosomal microarray have a (likely) pathogenic variant that can be detected through prenatal ES. These results warrant implementation of exome sequencing in selected cases, including those with an isolated anomaly on prenatal ultrasound. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Limited additional value of karyotyping cultured amniotic fluid cell colonies in addition to microarray on uncultured cells for confirmation of abnormal non-invasive prenatal testing results

Author

Donze, Stephany H., Srebniak, Malgorzata I., Diderich, Karin E. M., van den Born, Myrthe, Galjaard, Robert-Jan, Govaerts, Lutgarde C. P., van der Schoot, Vyne, Knapen, Maarten F. C. M., Joosten, Marieke, Van Opstal, Diane, Donze, Stephany H., Srebniak, Malgorzata I., Diderich, Karin E. M., van den Born, Myrthe, Galjaard, Robert-Jan, Govaerts, Lutgarde C. P., van der Schoot, Vyne, Knapen, Maarten F. C. M., Joosten, Marieke, and Van Opstal, Diane

Abstract

Objectives: Non-invasive prenatal testing (NIPT) allows the detection of placental chromosome aberrations. To verify whether the fetus also has the chromosome aberration, diagnostic follow-up testing is required. The aim of this retrospective study was to assess the added value of analyzing amniotic fluid (AF) cell cultures in addition to uncultured AF cells for the detection of fetal mosaicism. Method: NIPT was performed as part of the Dutch TRIDENT study. Cytogenetic studies in uncultured AF were performed using single nucleotide polymorphism (SNP)-array. Cultured AF cell colonies (in situ method) were investigated with fluorescent in situ hybridization and/or karyotyping. Clinical outcome data were collected in cases with discordant results. Results: Between April 2014 and December 2021, 368 amniocenteses were performed after a chromosomal aberration was detected with NIPT. Excluding 134 cases of common aneuploidies (confirmed by quantitative fluorescence polymerase chain reaction), 29 cases with investigation of uncultured cells only and 1 case without informed consent, 204 cases were eligible for this study. In 196 (96%) cases, the results in uncultured and cultured cells were concordant normal, abnormal or mosaic. Five cases (2%) showed mosaicism in cultured AF cells, whereas uncultured AF cells were normal. Two (1%) of these, one mosaic trisomy 13 and one mosaic trisomy 16, were considered true fetal mosaics. Conclusion: The added value of investigating AF cell cultures in addition to uncultured cells is limited to two of 204 (1%) cases in which true fetal mosaicsm would otherwise be missed. The clinical relevance of one (trisomy 13) remained unknown and the other case also showed ultrasound anomalies, which determined pregnancy management. This seems to justify limiting prenatal cytogenetic confirmatory testing to SNP arrays on uncultured AF cells, considerably shortening the reporting time.

Published
2024

7. Response to the comment on Diderich et al. “The role of a multidisciplinary team in managing variants of uncertain clinical significance in prenatal genetic diagnosis” (EJMG 66(10),104844)

Author

Diderich, Karin E.M., Klapwijk, Jasmijn E., van der Schoot, Vyne, van den Born, Myrthe, Wilke, Martina, Joosten, Marieke, Stuurman, Kyra E., Hoefsloot, Lies H., Van Opstal, Diane, Brüggenwirth, Hennie T., Srebniak, Malgorzata I., Diderich, Karin E.M., Klapwijk, Jasmijn E., van der Schoot, Vyne, van den Born, Myrthe, Wilke, Martina, Joosten, Marieke, Stuurman, Kyra E., Hoefsloot, Lies H., Van Opstal, Diane, Brüggenwirth, Hennie T., and Srebniak, Malgorzata I.

Published
2024

8. The role of confined placental mosaicism in fetal growth restriction:A retrospective cohort study

Author

Eggenhuizen, Geerke M., Go, Attie T. J. I., Sauter, Zoe, Hoffer, Mariette J. V., Haak, Monique C., Geeven, Geert, Diderich, Karin E. M., Joosten, Marieke, van den Born, Myrthe, Srebniak, Malgorzata I., Van Opstal, Diane, Eggenhuizen, Geerke M., Go, Attie T. J. I., Sauter, Zoe, Hoffer, Mariette J. V., Haak, Monique C., Geeven, Geert, Diderich, Karin E. M., Joosten, Marieke, van den Born, Myrthe, Srebniak, Malgorzata I., and Van Opstal, Diane

Abstract

Objective: To evaluate which cytogenetic characteristics of confined placental mosaicism (CPM) detected in the first trimester chorionic villi and/or placentas in terms of chromosome aberration, cell lineage involved and trisomy origin will lead to fetal growth restriction and low birthweight. Methods: Cohort study using routinely collected perinatal data and cytogenetic data of non-invasive prenatal testing, the first trimester chorionic villi sampling and postnatal placentas. Results: 215 CPM cases were found. Fetal growth restriction (FGR) and low birthweight below the 10 th percentile (BW < p10) were seen in 34.0% and 23.1%, respectively. Excluding cases of trisomy 16, 29.1% showed FGR and 17.9% had a BW < p10. The highest rate of FGR and BW < p10 was found in CPM type 3, but differences with type 1 and 2 were not significant. FGR and BW < p10 were significantly more often observed in cases with meiotic trisomies. Conclusion: There is an association between CPM and FGR and BW < p10. This association is not restricted to trisomy 16, neither to CPM type 3, nor to CPM involving a meiotic trisomy. Pregnancies with all CPM types and origins should be considered to be at increased risk of FGR and low BW < p10. A close prenatal fetal monitoring is indicated in all cases of CPM.

Published
2024

10. Response to the comment on Diderich et al. “The role of a multidisciplinary team in managing variants of uncertain clinical significance in prenatal genetic diagnosis” (EJMG 66(10),104844)

Author

Diderich, Karin E.M., primary, Klapwijk, Jasmijn E., additional, van der Schoot, Vyne, additional, van den Born, Myrthe, additional, Wilke, Martina, additional, Joosten, Marieke, additional, Stuurman, Kyra E., additional, Hoefsloot, Lies H., additional, Van Opstal, Diane, additional, Brüggenwirth, Hennie T., additional, and Srebniak, Malgorzata I., additional

Published
2024
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11. Limited additional value of karyotyping cultured amniotic fluid cell colonies in addition to microarray on uncultured cells for confirmation of abnormal non‐invasive prenatal testing results

Author

Donze, Stephany H., primary, Srebniak, Malgorzata I., additional, Diderich, Karin E. M., additional, van den Born, Myrthe, additional, Galjaard, Robert‐Jan, additional, Govaerts, Lutgarde C. P., additional, van der Schoot, Vyne, additional, Knapen, Maarten F. C. M., additional, Joosten, Marieke, additional, and Van Opstal, Diane, additional

Published
2023
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13. The role of confined placental mosaicism in fetal growth restriction: A retrospective cohort study.

Author

Eggenhuizen, Geerke M., Go, Attie T. J. I., Sauter, Zoë, Hoffer, Mariëtte J. V., Haak, Monique C., Geeven, Geert, Diderich, Karin E. M., Joosten, Marieke, van den Born, Myrthe, Srebniak, Malgorzata I., and Van Opstal, Diane

Abstract

Objective: To evaluate which cytogenetic characteristics of confined placental mosaicism (CPM) detected in the first trimester chorionic villi and/or placentas in terms of chromosome aberration, cell lineage involved and trisomy origin will lead to fetal growth restriction and low birthweight. Methods: Cohort study using routinely collected perinatal data and cytogenetic data of non‐invasive prenatal testing, the first trimester chorionic villi sampling and postnatal placentas. Results: 215 CPM cases were found. Fetal growth restriction (FGR) and low birthweight below the 10th percentile (BW < p10) were seen in 34.0% and 23.1%, respectively. Excluding cases of trisomy 16, 29.1% showed FGR and 17.9% had a BW < p10. The highest rate of FGR and BW < p10 was found in CPM type 3, but differences with type 1 and 2 were not significant. FGR and BW < p10 were significantly more often observed in cases with meiotic trisomies. Conclusion: There is an association between CPM and FGR and BW < p10. This association is not restricted to trisomy 16, neither to CPM type 3, nor to CPM involving a meiotic trisomy. Pregnancies with all CPM types and origins should be considered to be at increased risk of FGR and low BW < p10. A close prenatal fetal monitoring is indicated in all cases of CPM. Key points: What's already known about this topic? CPM may have an impact on fetal growth and birthweight.CPM type 3 often involving a meiotic trisomy is associated with an adverse pregnancy outcome. What does this study add? Although fetal growth problems were more often seen in CPM type 3 and those involving a meiotic trisomy, both CPM type 1 and CPM involving a mitotic trisomy were also associated with an increased risk of impaired fetal growth and low birthweight.Irrespective of CPM type, trisomy origin, or involved chromosome aberration, we advocate to closely monitor all pregnancies where CPM is suspected, except for CPM type 2. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Genetic Variants in ARHGEF6 Cause Congenital Anomalies of the Kidneys and Urinary Tract in Humans, Mice, and Frogs.

Author

Klämbt, V., Buerger, F., Wang, C., Naert, T., Richter, K., Nauth, T., Weiss, A.C., Sieckmann, T., Lai, E., Connaughton, D.M., Seltzsam, S., Mann, N., Majmundar, A.J., Wu, C.W., Onuchic-Whitford, A.C., Shril, S., Schneider, S., Schierbaum, L., Dai, R., Bekheirnia, M.R., Joosten, Marieke, Shlomovitz, O., Vivante, A., Banne, E., Mane, S., Lifton, R.P., Kirschner, K.M., Kispert, A., Rosenberger, G., Fischer, K.D., Lienkamp, S.S., Zegers, M.M.P., Hildebrandt, F., Klämbt, V., Buerger, F., Wang, C., Naert, T., Richter, K., Nauth, T., Weiss, A.C., Sieckmann, T., Lai, E., Connaughton, D.M., Seltzsam, S., Mann, N., Majmundar, A.J., Wu, C.W., Onuchic-Whitford, A.C., Shril, S., Schneider, S., Schierbaum, L., Dai, R., Bekheirnia, M.R., Joosten, Marieke, Shlomovitz, O., Vivante, A., Banne, E., Mane, S., Lifton, R.P., Kirschner, K.M., Kispert, A., Rosenberger, G., Fischer, K.D., Lienkamp, S.S., Zegers, M.M.P., and Hildebrandt, F.

Abstract

Item does not contain fulltext, BACKGROUND: About 40 disease genes have been described to date for isolated CAKUT, the most common cause of childhood CKD. However, these genes account for only 20% of cases. ARHGEF6, a guanine nucleotide exchange factor that is implicated in biologic processes such as cell migration and focal adhesion, acts downstream of integrin-linked kinase (ILK) and parvin proteins. A genetic variant of ILK that causes murine renal agenesis abrogates the interaction of ILK with a murine focal adhesion protein encoded by Parva , leading to CAKUT in mice with this variant. METHODS: To identify novel genes that, when mutated, result in CAKUT, we performed exome sequencing in an international cohort of 1265 families with CAKUT. We also assessed the effects in vitro of wild-type and mutant ARHGEF6 proteins, and the effects of Arhgef6 deficiency in mouse and frog models. RESULTS: We detected six different hemizygous variants in the gene ARHGEF6 (which is located on the X chromosome in humans) in eight individuals from six families with CAKUT. In kidney cells, overexpression of wild-type ARHGEF6 -but not proband-derived mutant ARHGEF6 -increased active levels of CDC42/RAC1, induced lamellipodia formation, and stimulated PARVA-dependent cell spreading. ARHGEF6-mutant proteins showed loss of interaction with PARVA. Three-dimensional Madin-Darby canine kidney cell cultures expressing ARHGEF6-mutant proteins exhibited reduced lumen formation and polarity defects. Arhgef6 deficiency in mouse and frog models recapitulated features of human CAKUT. CONCLUSIONS: Deleterious variants in ARHGEF6 may cause dysregulation of integrin-parvin-RAC1/CDC42 signaling, thereby leading to X-linked CAKUT.

Published
2023

16. Challenges and Pragmatic Solutions in Pre-Test and Post-Test Genetic Counseling for Prenatal Exome Sequencing

Author

Diderich,Karin EM, Klapwijk,Jasmijn E, van der Schoot,Vyne, Brüggenwirth,Hennie T, Joosten,Marieke, Srebniak,Malgorzata I, Diderich,Karin EM, Klapwijk,Jasmijn E, van der Schoot,Vyne, Brüggenwirth,Hennie T, Joosten,Marieke, and Srebniak,Malgorzata I

Abstract

Karin EM Diderich, Jasmijn E Klapwijk, Vyne van der Schoot, Hennie T Brüggenwirth, Marieke Joosten, Malgorzata I Srebniak Department of Clinical Genetics, Erasmus MC, Rotterdam, the NetherlandsCorrespondence: Karin EM Diderich, Department of Clinical Genetics, Erasmus MC, Wytemaweg 50, Rotterdam, the Netherlands, Tel +31 10 70 43214, Email k.diderich@erasmusmc.nlAbstract: The yield of genetic prenatal diagnosis has been notably improved by introducing whole genome chromosomal microarray (CMA) and prenatal exome sequencing (pES). However, together with increased numbers of diagnoses made, the need to manage challenging findings such as variants of unknown significance (VUS) and incidental findings (IF) also increased. We have summarized the current guidelines and recommendations and we have shown current solutions used in our tertiary center in the Netherlands. We discuss four of the most common clinical situations: fetus with normal pES results, fetus with a pathogenic finding explaining the fetal phenotype, fetus with a variant of uncertain clinical significance fitting the phenotype and fetus with a variant leading to an incidental diagnosis. Additionally, we reflect on solutions in order to facilitate genetic counseling in an NGS-era.Keywords: exome sequencing, genetic counseling, prenatal diagnosis, incidental findings, variants of unknown significance, VUS, IF

Published
2023

17. What proportion of couples with a history of recurrent pregnancy loss and with a balanced rearrangement in one parent can potentially be identified through cell-free DNA genotyping?

Author

van Zutven, Laura J.C.M., Mijalkovic, Jona, van Veghel-Plandsoen, Monique, Goense, Margaret, Polak, Marike, Knapen, Maarten F.C.M., de Weerd, Sabina, Joosten, Marieke, Diderich, Karin E.M., Hoefsloot, Lies H., Van Opstal, Diane, Srebniak, Malgorzata I., van Zutven, Laura J.C.M., Mijalkovic, Jona, van Veghel-Plandsoen, Monique, Goense, Margaret, Polak, Marike, Knapen, Maarten F.C.M., de Weerd, Sabina, Joosten, Marieke, Diderich, Karin E.M., Hoefsloot, Lies H., Van Opstal, Diane, and Srebniak, Malgorzata I.

Abstract

Background: Balanced chromosome aberrations are reported in about 1:30 couples with recurrent pregnancy loss (RPL). Karyotyping of both parents is necessary to identify these aberrations. Genome-wide non-invasive prenatal testing (NIPT) in case of recurrent pregnancy loss could be a more efficient way to identify couples at increased risk for carrying a balanced chromosome rearrangement. The aim of this study was to evaluate whether the potential fetal imbalances caused by parental balanced aberrations detected in our center are large enough to be detectable by genome-wide non-invasive prenatal testing (NIPT). Material and methods: From January 1970 until May 2020 our laboratory received 30,863 unique requests for karyotyping due to RPL. We have identified 16,045 couples and evaluated all abnormal cytogenetic results to assess the minimal size of the involved chromosomal segments in potential unbalanced products of the rearrangements. Results:In the presented cohort we detected 277 aberrant balanced translocations/inversions in females and 185 in males amongst 16,045 couples with RPL, which can be translated to a risk of 1:35 (2.9%, 95% CI 2.6–3.2%). Our study showed that the vast majority (98.7%, 95% CI 97.1–99.5%) of these balanced aberrations will potentially cause a fetal imbalance > 10 Mb, which is detectable with genome-wide NIPT if it was performed during one of the miscarriages. Conclusions: Our study suggests that genome-wide NIPT is able to reveal most unbalanced products of balanced chromosomal rearrangements carried by couples with RPL and therefore can potentially identify balanced chromosomal aberration carriers. Moreover, our data suggest that these couples can be offered NIPT in case they decline invasive testing in future pregnancies.

Published
2023

18. Challenges and Pragmatic Solutions in Pre-Test and Post-Test Genetic Counseling for Prenatal Exome Sequencing

Author

Diderich, Karin E.M., Klapwijk, Jasmijn E., van der Schoot, Vyne, Brüggenwirth, Hennie T., Joosten, Marieke, Srebniak, Malgorzata I., Diderich, Karin E.M., Klapwijk, Jasmijn E., van der Schoot, Vyne, Brüggenwirth, Hennie T., Joosten, Marieke, and Srebniak, Malgorzata I.

Abstract

The yield of genetic prenatal diagnosis has been notably improved by introducing whole genome chromosomal microarray (CMA) and prenatal exome sequencing (pES). However, together with increased numbers of diagnoses made, the need to manage challenging findings such as variants of unknown significance (VUS) and incidental findings (IF) also increased. We have summarized the current guidelines and recommendations and we have shown current solutions used in our tertiary center in the Netherlands. We discuss four of the most common clinical situations: fetus with normal pES results, fetus with a pathogenic finding explaining the fetal phenotype, fetus with a variant of uncertain clinical significance fitting the phenotype and fetus with a variant leading to an incidental diagnosis. Additionally, we reflect on solutions in order to facilitate genetic counseling in an NGS-era.

Published
2023

19. Web-accessible application for identifying pathogenic transcripts with RNA-seq: Increased sensitivity in diagnosis of neurodevelopmental disorders

Author

Dekker, Jordy, primary, Schot, Rachel, additional, Bongaerts, Michiel, additional, de Valk, Walter G., additional, van Veghel-Plandsoen, Monique M., additional, Monfils, Kathryn, additional, Douben, Hannie, additional, Elfferich, Peter, additional, Kasteleijn, Esmee, additional, van Unen, Leontine M.A., additional, Geeven, Geert, additional, Saris, Jasper J., additional, van Ierland, Yvette, additional, Verheijen, Frans W., additional, van der Sterre, Marianne L.T., additional, Sadeghi Niaraki, Farah, additional, Smits, Daphne J., additional, Huidekoper, Hidde H., additional, Williams, Monique, additional, Wilke, Martina, additional, Verhoeven, Virginie J.M., additional, Joosten, Marieke, additional, Kievit, Anneke J.A., additional, van de Laar, Ingrid M.B.H., additional, Hoefsloot, Lies H., additional, Hoogeveen-Westerveld, Marianne, additional, Nellist, Mark, additional, Mancini, Grazia M.S., additional, and van Ham, Tjakko J., additional

Published
2023
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20. Discovering a new part of the phenotypic spectrum of Coffin-Siris syndrome in a fetal cohort

Author

van der Sluijs, Pleuntje J., primary, Joosten, Marieke, additional, Alby, Caroline, additional, Attié-Bitach, Tania, additional, Gilmore, Kelly, additional, Dubourg, Christele, additional, Fradin, Mélanie, additional, Wang, Tianyun, additional, Kurtz-Nelson, Evangeline C., additional, Ahlers, Kaitlyn P., additional, Arts, Peer, additional, Barnett, Christopher P., additional, Ashfaq, Myla, additional, Baban, Anwar, additional, van den Born, Myrthe, additional, Borrie, Sarah, additional, Busa, Tiffany, additional, Byrne, Alicia, additional, Carriero, Miriam, additional, Cesario, Claudia, additional, Chong, Karen, additional, Cueto-González, Anna Maria, additional, Dempsey, Jennifer C., additional, Diderich, Karin E.M., additional, Doherty, Dan, additional, Farholt, Stense, additional, Gerkes, Erica H., additional, Gorokhova, Svetlana, additional, Govaerts, Lutgarde C.P., additional, Gregersen, Pernille A., additional, Hickey, Scott E., additional, Lefebvre, Mathilde, additional, Mari, Francesca, additional, Martinovic, Jelena, additional, Northrup, Hope, additional, O’Leary, Melanie, additional, Parbhoo, Kareesma, additional, Patrier, Sophie, additional, Popp, Bernt, additional, Santos-Simarro, Fernando, additional, Stoltenburg, Corinna, additional, Thauvin-Robinet, Christel, additional, Thompson, Elisabeth, additional, Vulto-van Silfhout, Anneke T., additional, Zahir, Farah R., additional, Scott, Hamish S., additional, Earl, Rachel K., additional, Eichler, Evan E., additional, Vora, Neeta L., additional, Wilnai, Yael, additional, Giordano, Jessica L., additional, Wapner, Ronald J., additional, Rosenfeld, Jill A., additional, Haak, Monique C., additional, and Santen, Gijs W.E., additional

Published
2023
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21. Genetic Variants in ARHGEF6 Cause Congenital Anomalies of the Kidneys and Urinary Tract in Humans, Mice, and Frogs

Author

Klämbt, Verena, primary, Buerger, Florian, additional, Wang, Chunyan, additional, Naert, Thomas, additional, Richter, Karin, additional, Nauth, Theresa, additional, Weiss, Anna-Carina, additional, Sieckmann, Tobias, additional, Lai, Ethan, additional, Connaughton, Dervla M., additional, Seltzsam, Steve, additional, Mann, Nina, additional, Majmundar, Amar J., additional, Wu, Chen-Han W., additional, Onuchic-Whitford, Ana C., additional, Shril, Shirlee, additional, Schneider, Sophia, additional, Schierbaum, Luca, additional, Dai, Rufeng, additional, Bekheirnia, Mir Reza, additional, Joosten, Marieke, additional, Shlomovitz, Omer, additional, Vivante, Asaf, additional, Banne, Ehud, additional, Mane, Shrikant, additional, Lifton, Richard P., additional, Kirschner, Karin M., additional, Kispert, Andreas, additional, Rosenberger, Georg, additional, Fischer, Klaus-Dieter, additional, Lienkamp, Soeren S., additional, Zegers, Mirjam M.P., additional, and Hildebrandt, Friedhelm, additional

Published
2023
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22. Discovering a new part of the phenotypic spectrum of Coffin-Siris syndrome in a fetal cohort

Author

van der Sluijs, Pleuntje J., primary, Joosten, Marieke, additional, Alby, Caroline, additional, Attié-Bitach, Tania, additional, Gilmore, Kelly, additional, Dubourg, Christele, additional, Fradin, Mélanie, additional, Wang, Tianyun, additional, Kurtz-Nelson, Evangeline C., additional, Ahlers, Kaitlyn P., additional, Arts, Peer, additional, Barnett, Christopher P., additional, Ashfaq, Myla, additional, Baban, Anwar, additional, van den Born, Myrthe, additional, Borrie, Sarah, additional, Busa, Tiffany, additional, Byrne, Alicia, additional, Carriero, Miriam, additional, Cesario, Claudia, additional, Chong, Karen, additional, Cueto-González, Anna Maria, additional, Dempsey, Jennifer C., additional, Diderich, Karin E.M., additional, Doherty, Dan, additional, Farholt, Stense, additional, Gerkes, Erica H., additional, Gorokhova, Svetlana, additional, Govaerts, Lutgarde C.P., additional, Gregersen, Pernille A., additional, Hickey, Scott E., additional, Lefebvre, Mathilde, additional, Mari, Francesca, additional, Martinovic, Jelena, additional, Northrup, Hope, additional, O’Leary, Melanie, additional, Parbhoo, Kareesma, additional, Patrier, Sophie, additional, Popp, Bernt, additional, Santos-Simarro, Fernando, additional, Stoltenburg, Corinna, additional, Thauvin-Robinet, Christel, additional, Thompson, Elisabeth, additional, Vulto-van Silfhout, Anneke T., additional, Zahir, Farah R., additional, Scott, Hamish S., additional, Earl, Rachel K., additional, Eichler, Evan E., additional, Vora, Neeta L., additional, Wilnai, Yael, additional, Giordano, Jessica L., additional, Wapner, Ronald J., additional, Rosenfeld, Jill A., additional, Haak, Monique C., additional, and Santen, Gijs W.E., additional

Published
2022
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23. RNA-sequencing improves diagnosis for neurodevelopmental disorders by identifying pathogenic non-coding variants and reinterpretation of coding variants

Author

Dekker, Jordy, primary, Schot, Rachel, additional, Bongaerts, Michiel, additional, de Valk, Walter G., additional, van Veghel-Plandsoen, Monique M., additional, Monfils, Kathryn, additional, Douben, Hannie, additional, Elfferich, Peter, additional, Kasteleijn, Esmee, additional, van Unen, Leontine M.A., additional, Geeven, Geert, additional, Saris, Jasper J., additional, van Ierland, Yvette, additional, Verheijen, Frans W., additional, van der Sterre, Marianne L.T., additional, Niaraki, Farah Sadeghi, additional, Huidekoper, Hidde H., additional, Williams, Monique, additional, Wilke, Martina, additional, Verhoeven, Virginie J.M., additional, Joosten, Marieke, additional, Kievit, Anneke J.A., additional, van de Laar, Ingrid M.B.H., additional, Hoefsloot, Lies H., additional, Hoogeveen-Westerveld, Marianne, additional, Nellist, Mark, additional, Mancini, Grazia M.S., additional, and van Ham, Tjakko J., additional

Published
2022
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24. NIPD for translocation carriers - yes please or no go?

Author

Srebniak, Malgorzata I., Jehee, Fernanda S., Joosten, Marieke, Boter, Marjan, de Valk, Walter, van der Helm, Robert, Sistermans, Erik, Voorhoeve, Els, Bhola, Shama, Hoffer, Mariette, den Hollander, Nicolette, Macville, Merryn, Van Opstal, Diane, Clinical genetics, and Amsterdam Reproduction & Development

Published
2022

25. Clinical impact of additional findings detected by genome-wide non-invasive prenatal testing: Follow-up results of the TRIDENT-2 study

Author

Prooyen Schuurman, L. van, Sistermans, E.A., Opstal, D. Van, Henneman, L., Bekker, M.N., Bax, C.J., Pieters, M.J., Bouman, Katelijne, Munnik, S.A. de, Hollander, N.S. den, Diderich, K.E.M., Faas, B.H.W., Feenstra, I., Go, A., Hoffer, M.J.V., Joosten, Marieke, Komdeur, F.L., Lichtenbelt, K.D., Lombardi, M.P., Polak, M.G., Jehee, F.S., Schuring-Blom, H., Stevens, S.J.C., Srebniak, M.I., Suijkerbuijk, R.F., Tan-Sindhunata, G.M., Meij, K.R.M. van der, Maarle, M.C. van, Vernimmen, V., Zelderen-Bhola, S.L. van, Ravesteyn, N.T. van, Knapen, M., Macville, M.V.E., Galjaard, R.H., Prooyen Schuurman, L. van, Sistermans, E.A., Opstal, D. Van, Henneman, L., Bekker, M.N., Bax, C.J., Pieters, M.J., Bouman, Katelijne, Munnik, S.A. de, Hollander, N.S. den, Diderich, K.E.M., Faas, B.H.W., Feenstra, I., Go, A., Hoffer, M.J.V., Joosten, Marieke, Komdeur, F.L., Lichtenbelt, K.D., Lombardi, M.P., Polak, M.G., Jehee, F.S., Schuring-Blom, H., Stevens, S.J.C., Srebniak, M.I., Suijkerbuijk, R.F., Tan-Sindhunata, G.M., Meij, K.R.M. van der, Maarle, M.C. van, Vernimmen, V., Zelderen-Bhola, S.L. van, Ravesteyn, N.T. van, Knapen, M., Macville, M.V.E., and Galjaard, R.H.

Abstract

Item does not contain fulltext, In the TRIDENT-2 study, all pregnant women in the Netherlands are offered genome-wide non-invasive prenatal testing (GW-NIPT) with a choice of receiving either full screening or screening solely for common trisomies. Previous data showed that GW-NIPT can reliably detect common trisomies in the general obstetric population and that this test can also detect other chromosomal abnormalities (additional findings). However, evidence regarding the clinical impact of screening for additional findings is lacking. Therefore, we present follow-up results of the TRIDENT-2 study to determine this clinical impact based on the laboratory and perinatal outcomes of cases with additional findings. Between April 2017 and April 2019, additional findings were detected in 402/110,739 pregnancies (0.36%). For 358 cases, the origin was proven to be either fetal (n = 79; 22.1%), (assumed) confined placental mosaicism (CPM) (n = 189; 52.8%), or maternal (n = 90; 25.1%). For the remaining 44 (10.9%), the origin of the aberration could not be determined. Most fetal chromosomal aberrations were pathogenic and associated with severe clinical phenotypes (61/79; 77.2%). For CPM cases, occurrence of pre-eclampsia (8.5% [16/189] vs 0.5% [754/159,924]; RR 18.5), and birth weight <2.3rd percentile (13.6% [24/177] vs 2.5% [3,892/155,491]; RR 5.5) were significantly increased compared to the general obstetric population. Of the 90 maternal findings, 12 (13.3%) were malignancies and 32 (35.6%) (mosaic) pathogenic copy number variants, mostly associated with mild or no clinical phenotypes. Data from this large cohort study provide crucial information for deciding if and how to implement GW-NIPT in screening programs. Additionally, these data can inform the challenging interpretation, counseling, and follow-up of additional findings.

Published
2022

26. Discovering a new part of the phenotypic spectrum of Coffin-Siris syndrome in a fetal cohort

Author

Sluijs, P.J. van der, Joosten, Marieke, Alby, C., Attié-Bitach, T., Gilmore, K., Dubourg, C., Fradin, M., Wang, T., Kurtz-Nelson, E.C., Ahlers, K.P., Arts, P., Barnett, C.P., Ashfaq, M., Baban, A., Born, M. van den, Borrie, S., Busa, T., Byrne, A., Carriero, M., Cesario, C., Chong, K., Cueto-González, A.M., Dempsey, J.C., Diderich, K.E.M., Doherty, D., Farholt, S., Gerkes, E.H., Gorokhova, S., Govaerts, L.C.P., Gregersen, P.A., Hickey, S.E., Lefebvre, M., Mari, F., Martinovic, Jelena, Northrup, H., O'Leary, M., Parbhoo, K., Patrier, S., Popp, B., Santos-Simarro, F., Stoltenburg, C., Thauvin-Robinet, C., Thompson, E., Vulto-van Silfhout, A.T., Zahir, F.R., Scott, H.S., Earl, R.K., Eichler, E.E., Vora, N.L., Wilnai, Y., Giordano, J.L., Wapner, R.J., Rosenfeld, J.A., Haak, M.C., Santen, G.W.E., Sluijs, P.J. van der, Joosten, Marieke, Alby, C., Attié-Bitach, T., Gilmore, K., Dubourg, C., Fradin, M., Wang, T., Kurtz-Nelson, E.C., Ahlers, K.P., Arts, P., Barnett, C.P., Ashfaq, M., Baban, A., Born, M. van den, Borrie, S., Busa, T., Byrne, A., Carriero, M., Cesario, C., Chong, K., Cueto-González, A.M., Dempsey, J.C., Diderich, K.E.M., Doherty, D., Farholt, S., Gerkes, E.H., Gorokhova, S., Govaerts, L.C.P., Gregersen, P.A., Hickey, S.E., Lefebvre, M., Mari, F., Martinovic, Jelena, Northrup, H., O'Leary, M., Parbhoo, K., Patrier, S., Popp, B., Santos-Simarro, F., Stoltenburg, C., Thauvin-Robinet, C., Thompson, E., Vulto-van Silfhout, A.T., Zahir, F.R., Scott, H.S., Earl, R.K., Eichler, E.E., Vora, N.L., Wilnai, Y., Giordano, J.L., Wapner, R.J., Rosenfeld, J.A., Haak, M.C., and Santen, G.W.E.

Abstract

Item does not contain fulltext, PURPOSE: Genome-wide sequencing is increasingly being performed during pregnancy to identify the genetic cause of congenital anomalies. The interpretation of prenatally identified variants can be challenging and is hampered by our often limited knowledge of prenatal phenotypes. To better delineate the prenatal phenotype of Coffin-Siris syndrome (CSS), we collected clinical data from patients with a prenatal phenotype and a pathogenic variant in one of the CSS-associated genes. METHODS: Clinical data was collected through an extensive web-based survey. RESULTS: We included 44 patients with a variant in a CSS-associated gene and a prenatal phenotype; 9 of these patients have been reported before. Prenatal anomalies that were frequently observed in our cohort include hydrocephalus, agenesis of the corpus callosum, hypoplastic left heart syndrome, persistent left vena cava, diaphragmatic hernia, renal agenesis, and intrauterine growth restriction. Anal anomalies were frequently identified after birth in patients with ARID1A variants (6/14, 43%). Interestingly, pathogenic ARID1A variants were much more frequently identified in the current prenatal cohort (16/44, 36%) than in postnatal CSS cohorts (5%-9%). CONCLUSION: Our data shed new light on the prenatal phenotype of patients with pathogenic variants in CSS genes.

Published
2022

27. Clinical impact of additional findings detected by genome-wide non-invasive prenatal testing:Follow-up results of the TRIDENT-2 study

Author

van Prooyen Schuurman, Lisanne, Sistermans, Erik A., Van Opstal, Diane, Henneman, Lidewij, Bekker, Mireille N., Bax, Caroline J., Pieters, Mijntje J., Bouman, Katelijne, de Munnik, Sonja, den Hollander, Nicolette S., Diderich, Karin E.M., Faas, Brigitte H.W., Feenstra, Ilse, Go, Attie T.J.I., Hoffer, Mariëtte J.V., Joosten, Marieke, Komdeur, Fenne L., Lichtenbelt, Klaske D., Lombardi, Maria P., Polak, Marike G., Jehee, Fernanda S., Schuring-Blom, Heleen, Stevens, Servi J.C., Srebniak, Malgorzata I., Suijkerbuijk, Ron F., Tan-Sindhunata, Gita M., van der Meij, Karuna R.M., van Maarle, Merel C., Vernimmen, Vivian, van Zelderen-Bhola, Shama L., van Ravesteyn, Nicolien T., Knapen, Maarten F.C.M., Macville, Merryn V.E., Galjaard, Robert Jan H., van Prooyen Schuurman, Lisanne, Sistermans, Erik A., Van Opstal, Diane, Henneman, Lidewij, Bekker, Mireille N., Bax, Caroline J., Pieters, Mijntje J., Bouman, Katelijne, de Munnik, Sonja, den Hollander, Nicolette S., Diderich, Karin E.M., Faas, Brigitte H.W., Feenstra, Ilse, Go, Attie T.J.I., Hoffer, Mariëtte J.V., Joosten, Marieke, Komdeur, Fenne L., Lichtenbelt, Klaske D., Lombardi, Maria P., Polak, Marike G., Jehee, Fernanda S., Schuring-Blom, Heleen, Stevens, Servi J.C., Srebniak, Malgorzata I., Suijkerbuijk, Ron F., Tan-Sindhunata, Gita M., van der Meij, Karuna R.M., van Maarle, Merel C., Vernimmen, Vivian, van Zelderen-Bhola, Shama L., van Ravesteyn, Nicolien T., Knapen, Maarten F.C.M., Macville, Merryn V.E., and Galjaard, Robert Jan H.

Abstract

In the TRIDENT-2 study, all pregnant women in the Netherlands are offered genome-wide non-invasive prenatal testing (GW-NIPT) with a choice of receiving either full screening or screening solely for common trisomies. Previous data showed that GW-NIPT can reliably detect common trisomies in the general obstetric population and that this test can also detect other chromosomal abnormalities (additional findings). However, evidence regarding the clinical impact of screening for additional findings is lacking. Therefore, we present follow-up results of the TRIDENT-2 study to determine this clinical impact based on the laboratory and perinatal outcomes of cases with additional findings. Between April 2017 and April 2019, additional findings were detected in 402/110,739 pregnancies (0.36%). For 358 cases, the origin was proven to be either fetal (n = 79; 22.1%), (assumed) confined placental mosaicism (CPM) (n = 189; 52.8%), or maternal (n = 90; 25.1%). For the remaining 44 (10.9%), the origin of the aberration could not be determined. Most fetal chromosomal aberrations were pathogenic and associated with severe clinical phenotypes (61/79; 77.2%). For CPM cases, occurrence of pre-eclampsia (8.5% [16/189] vs 0.5% [754/159,924]; RR 18.5), and birth weight <2.3rd percentile (13.6% [24/177] vs 2.5% [3,892/155,491]; RR 5.5) were significantly increased compared to the general obstetric population. Of the 90 maternal findings, 12 (13.3%) were malignancies and 32 (35.6%) (mosaic) pathogenic copy number variants, mostly associated with mild or no clinical phenotypes. Data from this large cohort study provide crucial information for deciding if and how to implement GW-NIPT in screening programs. Additionally, these data can inform the challenging interpretation, counseling, and follow-up of additional findings.

Published
2022

28. Genetic Variants in ARHGEF6Cause Congenital Anomalies of the Kidneys and Urinary Tract in Humans, Mice, and Frogs

Author

Klämbt, Verena, Buerger, Florian, Wang, Chunyan, Naert, Thomas, Richter, Karin, Nauth, Theresa, Weiss, Anna-Carina, Sieckmann, Tobias, Lai, Ethan, Connaughton, Dervla M., Seltzsam, Steve, Mann, Nina, Majmundar, Amar J., Wu, Chen-Han W., Onuchic-Whitford, Ana C., Shril, Shirlee, Schneider, Sophia, Schierbaum, Luca, Dai, Rufeng, Bekheirnia, Mir Reza, Joosten, Marieke, Shlomovitz, Omer, Vivante, Asaf, Banne, Ehud, Mane, Shrikant, Lifton, Richard P., Kirschner, Karin M., Kispert, Andreas, Rosenberger, Georg, Fischer, Klaus-Dieter, Lienkamp, Soeren S., Zegers, Mirjam M.P., and Hildebrandt, Friedhelm

Published
2023
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29. Non‐invasive prenatal diagnosis for translocation carriers—YES please or NO go?

Author

Srebniak, Malgorzata I., Jehee, Fernanda S., Joosten, Marieke, Boter, Marjan, de Valk, Walter G., van der Helm, Robert, Sistermans, Erik A., Voorhoeve, Els, Bhola, Shama, Hoffer, Mariette J. V., den Hollander, Nicolette, Macville, Merryn V. E., and Van Opstal, Diane

Subjects
CELL-free DNA, PRENATAL diagnosis, CHORIONIC villi, DNA copy number variations, PREGNANT women
Abstract

Introduction: The presence of an unbalanced familial translocation can be reliably assessed in the cytotrophoblast of chorionic villi. However, carriers of a balanced translocation often decline invasive testing. This study aimed to investigate whether an unbalanced translocation can also be diagnosed in cell free DNA by whole‐genome non‐invasive prenatal screening (NIPS). Material and methods: Pregnant women carrying a fetus with an unbalanced familial translocation, for whom NIPS as well as microarray data were available, were included in this retrospective assessment. NIPS was performed in the course of the TRIDENT study. Results: In 12 cases, both NIPS and microarray data were available. In 10 of 12 cases the unbalanced translocation was correctly identified by NIPS without prior knowledge on parental translocation. One was missed because the fetal fraction was too low. One was missed because of technical restrictions in calling 16p gains. Conclusions: This study supports the hypothesis that routine NIPS may be used for prenatal diagnosis of unbalanced inheritance of familial translocations, especially with prior knowledge of the translocation allowing focused examination of the involved chromosomal regions. Our study showed that routine shallow sequencing designed for aneuploidy detection in cell free DNA may be sufficient for higher resolution NIPS, if specialized copy number software is used and if sufficient fetal fraction is present. [ABSTRACT FROM AUTHOR]

Published
2021
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30. Discovering a new part of the phenotypic spectrum of Coffin-Siris syndrome in a fetal cohort

Author

Jantine van der Sluijs, Pleuntje, Joosten, Marieke, Alby, Caroline, Attié-Bitach, Tania, Gilmore, Kelly, Dubourg, Christele, Fradin, Mélanie, Wang, Tianyun, Kurtz-Nelson, Evangeline C., Ahlers, Kaitlyn P., Arts, Peer, Barnett, Christopher P., Ashfaq, Myla, Baban, Anwar, van den Born, Myrthe, Borrie, Sarah, Busa, Tiffany, Byrne, Alicia, Carriero, Miriam, Cesario, Claudia, Chong, Karen, Cueto-González, Anna Maria, Dempsey, Jennifer C., Diderich, Karin E.M., Doherty, Dan, Farholt, Stense, Gerkes, Erica H., Gorokhova, Svetlana, Govaerts, Lutgarde C.P., Gregersen, Pernille A., Hickey, Scott E., Lefebvre, Mathlide, Mari, Francesca, Martinovic, Jelena, Northrup, Hope, O’Leary, Melanie, Parbhoo, Kareesma, Patrier, Sophie, Popp, Bernt, Santos-Simarro, Fernando, Stoltenburg, Corinna, Thauvin, Christel, Thompson, Elisabeth, Silfhout, A.T. Vulto-van, Zahir, Farah R., Scott, Hamish, Earl, Rachel K., Eichler, Evan E., Vora, Neeta L., Wilnai, Yael, Giordano, Jessica L., Wapner, Ronald J., Rosenfeld, Jill, Haak, Monique C., and Santen, Gijs W.E.

Abstract

Genome-wide sequencing is increasingly being performed during pregnancy to identify the genetic cause of congenital anomalies. The interpretation of prenatally identified variants can be challenging and is hampered by our often limited knowledge of prenatal phenotypes. To better delineate the prenatal phenotype of Coffin-Siris syndrome (CSS), we collected clinical data from patients with a prenatal phenotype and a pathogenic variant in one of the CSS-associated genes.

Published
2022
Full Text
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31. Discovering a new part of the phenotypic spectrum of Coffin-Siris syndrome in a fetal cohort

Author

Pleuntje J. van der Sluijs, Marieke Joosten, Caroline Alby, Tania Attié-Bitach, Kelly Gilmore, Christele Dubourg, Mélanie Fradin, Tianyun Wang, Evangeline C. Kurtz-Nelson, Kaitlyn P. Ahlers, Peer Arts, Christopher P. Barnett, Myla Ashfaq, Anwar Baban, Myrthe van den Born, Sarah Borrie, Tiffany Busa, Alicia Byrne, Miriam Carriero, Claudia Cesario, Karen Chong, Anna Maria Cueto-González, Jennifer C. Dempsey, Karin E.M. Diderich, Dan Doherty, Stense Farholt, Erica H. Gerkes, Svetlana Gorokhova, Lutgarde C.P. Govaerts, Pernille A. Gregersen, Scott E. Hickey, Mathilde Lefebvre, Francesca Mari, Jelena Martinovic, Hope Northrup, Melanie O’Leary, Kareesma Parbhoo, Sophie Patrier, Bernt Popp, Fernando Santos-Simarro, Corinna Stoltenburg, Christel Thauvin-Robinet, Elisabeth Thompson, Anneke T. Vulto-van Silfhout, Farah R. Zahir, Hamish S. Scott, Rachel K. Earl, Evan E. Eichler, Neeta L. Vora, Yael Wilnai, Jessica L. Giordano, Ronald J. Wapner, Jill A. Rosenfeld, Monique C. Haak, Gijs W.E. Santen, Leiden University Medical Center (LUMC), Universiteit Leiden, Erasmus University Medical Center [Rotterdam] (Erasmus MC), CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Imagine - Institut des maladies génétiques (IHU) (Imagine - U1163), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris Cité (UPCité), University of North Carolina [Chapel Hill] (UNC), University of North Carolina System (UNC), Institut de Génétique et Développement de Rennes (IGDR), Université de Rennes (UR)-Centre National de la Recherche Scientifique (CNRS)-Structure Fédérative de Recherche en Biologie et Santé de Rennes ( Biosit : Biologie - Santé - Innovation Technologique ), CHU Pontchaillou [Rennes], Hôpital de la Timone [CHU - APHM] (TIMONE), Marseille medical genetics - Centre de génétique médicale de Marseille (MMG), Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM), Lipides - Nutrition - Cancer [Dijon - U1231] (LNC), Université de Bourgogne (UB)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut Agro Dijon, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), CHU Rouen, Normandie Université (NU), Columbia University Medical Center (CUMC), Columbia University [New York], Baylor College of Medicine (BCM), Baylor University, This work was supported, in part, by grants from the National Institutes of Health (Grant No. R01 MH101221 [to E.E.E.]). E.E.E. is an investigator of the Howard Hughes Medical Institute.Sequencing and analysis for individual 30 was provided by the Broad Institute of MIT and Harvard Center for Mendelian Genomics and was funded by the National Human Genome Research Institute, the National Eye Institute, and the National Heart, Lung, and Blood Institute (Grant Nos. UM1 HG008900 and R01 HG009141).Sequencing and analysis of cases 5 and 18 was funded by the National Institute of Child Human Development (Grant Nos. K23 HD088742 and R01 HD105868 [to N.L.V.])., Emergency Medicine, Clinical Genetics, van der Sluijs, Pleuntje J, Joosten, Marieke, Alby, Caroline, Attié-Bitach, Tania, Arts, Peer, Byrne, Alicia, Scott, Hamish S, and Santen, Gijs WE

Subjects
prenatal, genetic association, Chromosomal Proteins, Non-Histone, Micrognathism, SMARCB1, genetic vulnerability, Article, Fetal, SMARCA4, Intellectual Disability, Humans, Coffin-Siris syndrome, Abnormalities, Multiple, Genetic Association Studies, Genetics (clinical), Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], BAF-complex, SMARCB, ARID1A, ARID1B BAFopathy, Phenotype, [SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics, Face, abnormalities, Hand Deformities, Congenital, Neck
Abstract

Purpose: Genome-wide sequencing is increasingly being performed during pregnancy to identify the genetic cause of congenital anomalies. The interpretation of prenatally identified variants can be challenging and is hampered by our often limited knowledge of prenatal phenotypes. To better delineate the prenatal phenotype of Coffin-Siris syndrome (CSS), we collected clinical data from patients with a prenatal phenotype and a pathogenic variant in one of the CSS-associated genes. Methods: Clinical data was collected through an extensive web-based survey. Results: We included 44 patients with a variant in a CSS-associated gene and a prenatal phenotype; 9 of these patients have been reported before. Prenatal anomalies that were frequently observed in our cohort include hydrocephalus, agenesis of the corpus callosum, hypoplastic left heart syndrome, persistent left vena cava, diaphragmatic hernia, renal agenesis, and intrauterine growth restriction. Anal anomalies were frequently identified after birth in patients with ARID1A variants (6/14, 43%). Interestingly, pathogenic ARID1A variants were much more frequently identified in the current prenatal cohort (16/44, 36%) than in postnatal CSS cohorts (5%-9%). Conclusion: Our data shed new light on the prenatal phenotype of patients with pathogenic variants in CSS genes. (C) 2022 American College of Medical Genetics and Genomics. Published by Elsevier Inc. All rights reserved.

Published
2022

32. Limited additional value of karyotyping cultured amniotic fluid cell colonies in addition to microarray on uncultured cells for confirmation of abnormal non-invasive prenatal testing results.

Author

Donze SH, Srebniak MI, Diderich KEM, van den Born M, Galjaard RJ, Govaerts LCP, van der Schoot V, Knapen MFCM, Joosten M, and Van Opstal D

Subjects
Pregnancy, Female, Humans, In Situ Hybridization, Fluorescence, Trisomy 13 Syndrome, Retrospective Studies, Placenta, Amniocentesis methods, Trisomy, Karyotyping, Mosaicism, Cells, Cultured, Prenatal Diagnosis methods, Amniotic Fluid
Abstract

Objectives: Non-invasive prenatal testing (NIPT) allows the detection of placental chromosome aberrations. To verify whether the fetus also has the chromosome aberration, diagnostic follow-up testing is required. The aim of this retrospective study was to assess the added value of analyzing amniotic fluid (AF) cell cultures in addition to uncultured AF cells for the detection of fetal mosaicism., Method: NIPT was performed as part of the Dutch TRIDENT study. Cytogenetic studies in uncultured AF were performed using single nucleotide polymorphism (SNP)-array. Cultured AF cell colonies (in situ method) were investigated with fluorescent in situ hybridization and/or karyotyping. Clinical outcome data were collected in cases with discordant results., Results: Between April 2014 and December 2021, 368 amniocenteses were performed after a chromosomal aberration was detected with NIPT. Excluding 134 cases of common aneuploidies (confirmed by quantitative fluorescence polymerase chain reaction), 29 cases with investigation of uncultured cells only and 1 case without informed consent, 204 cases were eligible for this study. In 196 (96%) cases, the results in uncultured and cultured cells were concordant normal, abnormal or mosaic. Five cases (2%) showed mosaicism in cultured AF cells, whereas uncultured AF cells were normal. Two (1%) of these, one mosaic trisomy 13 and one mosaic trisomy 16, were considered true fetal mosaics., Conclusion: The added value of investigating AF cell cultures in addition to uncultured cells is limited to two of 204 (1%) cases in which true fetal mosaicsm would otherwise be missed. The clinical relevance of one (trisomy 13) remained unknown and the other case also showed ultrasound anomalies, which determined pregnancy management. This seems to justify limiting prenatal cytogenetic confirmatory testing to SNP arrays on uncultured AF cells, considerably shortening the reporting time., (© 2023 The Authors. Prenatal Diagnosis published by John Wiley & Sons Ltd.)

Published
2024
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