Your search keyword '"van Ravenswaaij-Arts, Conny M"' showing total 243 results

51. Rapid Targeted Genomics in Critically Ill Newborns

Author

van Diemen, Cleo C., primary, Kerstjens-Frederikse, Wilhelmina S., additional, Bergman, Klasien A., additional, de Koning, Tom J., additional, Sikkema-Raddatz, Birgit, additional, van der Velde, Joeri K., additional, Abbott, Kristin M., additional, Herkert, Johanna C., additional, Löhner, Katharina, additional, Rump, Patrick, additional, Meems-Veldhuis, Martine T., additional, Neerincx, Pieter B.T., additional, Jongbloed, Jan D.H., additional, van Ravenswaaij-Arts, Conny M., additional, Swertz, Morris A., additional, Sinke, Richard J., additional, van Langen, Irene M., additional, and Wijmenga, Cisca, additional

Published

2017

52. Copy number variation in a hospital-based cohort of children with epilepsy

Author

Vlaskamp, Danique R. M., primary, Callenbach, Petra M. C., additional, Rump, Patrick, additional, Giannini, Lucia A. A., additional, Dijkhuizen, Trijnie, additional, Brouwer, Oebele F., additional, and van Ravenswaaij-Arts, Conny M. A., additional

Published

2017

53. The genomic landscape of balanced cytogenetic abnormalities associated with human congenital anomalies

Author

Redin, Claire, Brand, Harrison, Collins, Ryan L, Kammin, Tammy, Mitchell, Elyse, Hodge, Jennelle C, Hanscom, Carrie, Pillalamarri, Vamsee, Seabra, Catarina M, Abbott, Mary-Alice, Abdul-Rahman, Omar A, Aberg, Erika, Adley, Rhett, Alcaraz-Estrada, Sofia L, Alkuraya, Fowzan S, An, Yu, Anderson, Mary-Anne, Antolik, Caroline, Anyane-Yeboa, Kwame, Atkin, Joan F, Bartell, Tina, Bernstein, Jonathan A, Beyer, Elizabeth, Blumenthal, Ian, Bongers, Ernie M H F, Brilstra, Eva H, Brown, Chester W, Brüggenwirth, Hennie T, Callewaert, Bert, Chiang, Colby, Corning, Ken, Cox, Helen, Cuppen, Edwin, Currall, Benjamin B, Cushing, Tom, David, Dezso, Deardorff, Matthew A, Dheedene, Annelies, D'Hooghe, Marc, de Vries, Bert B A, Earl, Dawn L, Ferguson, Heather L, Fisher, Heather, FitzPatrick, David R, Gerrol, Pamela, Giachino, Daniela, Glessner, Joseph T, Gliem, Troy, Grady, Margo, Graham, Brett H, Griffis, Cristin, Gripp, Karen W, Gropman, Andrea L, Hanson-Kahn, Andrea, Harris, David J, Hayden, Mark A, Hill, Rosamund, Hochstenbach, Ron, Hoffman, Jodi D, Hopkin, Robert J, Hubshman, Monika W, Innes, A Micheil, Irons, Mira, Irving, Melita, Jacobsen, Jessie C, Janssens, Sandra, Jewett, Tamison, Johnson, John P, Jongmans, Marjolijn C, Kahler, Stephen G, Koolen, David A, Korzelius, Jerome, Kroisel, Peter M, Lacassie, Yves, Lawless, William, Lemyre, Emmanuelle, Leppig, Kathleen, Levin, Alex V, Li, Haibo, Li, Hong, Liao, Eric C, Lim, Cynthia, Lose, Edward J, Lucente, Diane, Macera, Michael J, Manavalan, Poornima, Mandrile, Giorgia, Marcelis, Carlo L, Margolin, Lauren, Mason, Tamara, Masser-Frye, Diane, McClellan, Michael W, Mendoza, Cinthya J Zepeda, Menten, Björn, Middelkamp, Sjors, Mikami, Liya R, Moe, Emily, Mohammed, Shehla, Mononen, Tarja, Mortenson, Megan E, Moya, Graciela, Nieuwint, Aggie W, Ordulu, Zehra, Parkash, Sandhya, Pauker, Susan P, Pereira, Shahrin, Perrin, Danielle, Phelan, Katy, Aguilar, Raul E Piña, Poddighe, Pino J, Pregno, Giulia, Raskin, Salmo, Reis, Linda, Rhead, William, Rita, Debra, Renkens, Ivo, Roelens, Filip, Ruliera, Jayla, Rump, Patrick, Schilit, Samantha L P, Shaheen, Ranad, Sparkes, Rebecca, Spiegel, Erica, Stevens, Blair, Stone, Matthew R, Tagoe, Julia, Thakuria, Joseph V, van Bon, Bregje W, van de Kamp, Jiddeke, van Der Burgt, Ineke, van Essen, Ton, van Ravenswaaij-Arts, Conny M, van Roosmalen, Markus J, Vergult, Sarah, Volker-Touw, Catharina M L, Warburton, Dorothy P, Waterman, Matthew J, Wiley, Susan, Wilson, Anna, Yerena-de Vega, Maria de la Concepcion A, Zori, Roberto T, Levy, Brynn, Brunner, Han G, de Leeuw, Nicole, Kloosterman, Wigard P, Thorland, Erik C, Morton, Cynthia C, Gusella, James F, Talkowski, Michael E, Redin, Claire, Brand, Harrison, Collins, Ryan L, Kammin, Tammy, Mitchell, Elyse, Hodge, Jennelle C, Hanscom, Carrie, Pillalamarri, Vamsee, Seabra, Catarina M, Abbott, Mary-Alice, Abdul-Rahman, Omar A, Aberg, Erika, Adley, Rhett, Alcaraz-Estrada, Sofia L, Alkuraya, Fowzan S, An, Yu, Anderson, Mary-Anne, Antolik, Caroline, Anyane-Yeboa, Kwame, Atkin, Joan F, Bartell, Tina, Bernstein, Jonathan A, Beyer, Elizabeth, Blumenthal, Ian, Bongers, Ernie M H F, Brilstra, Eva H, Brown, Chester W, Brüggenwirth, Hennie T, Callewaert, Bert, Chiang, Colby, Corning, Ken, Cox, Helen, Cuppen, Edwin, Currall, Benjamin B, Cushing, Tom, David, Dezso, Deardorff, Matthew A, Dheedene, Annelies, D'Hooghe, Marc, de Vries, Bert B A, Earl, Dawn L, Ferguson, Heather L, Fisher, Heather, FitzPatrick, David R, Gerrol, Pamela, Giachino, Daniela, Glessner, Joseph T, Gliem, Troy, Grady, Margo, Graham, Brett H, Griffis, Cristin, Gripp, Karen W, Gropman, Andrea L, Hanson-Kahn, Andrea, Harris, David J, Hayden, Mark A, Hill, Rosamund, Hochstenbach, Ron, Hoffman, Jodi D, Hopkin, Robert J, Hubshman, Monika W, Innes, A Micheil, Irons, Mira, Irving, Melita, Jacobsen, Jessie C, Janssens, Sandra, Jewett, Tamison, Johnson, John P, Jongmans, Marjolijn C, Kahler, Stephen G, Koolen, David A, Korzelius, Jerome, Kroisel, Peter M, Lacassie, Yves, Lawless, William, Lemyre, Emmanuelle, Leppig, Kathleen, Levin, Alex V, Li, Haibo, Li, Hong, Liao, Eric C, Lim, Cynthia, Lose, Edward J, Lucente, Diane, Macera, Michael J, Manavalan, Poornima, Mandrile, Giorgia, Marcelis, Carlo L, Margolin, Lauren, Mason, Tamara, Masser-Frye, Diane, McClellan, Michael W, Mendoza, Cinthya J Zepeda, Menten, Björn, Middelkamp, Sjors, Mikami, Liya R, Moe, Emily, Mohammed, Shehla, Mononen, Tarja, Mortenson, Megan E, Moya, Graciela, Nieuwint, Aggie W, Ordulu, Zehra, Parkash, Sandhya, Pauker, Susan P, Pereira, Shahrin, Perrin, Danielle, Phelan, Katy, Aguilar, Raul E Piña, Poddighe, Pino J, Pregno, Giulia, Raskin, Salmo, Reis, Linda, Rhead, William, Rita, Debra, Renkens, Ivo, Roelens, Filip, Ruliera, Jayla, Rump, Patrick, Schilit, Samantha L P, Shaheen, Ranad, Sparkes, Rebecca, Spiegel, Erica, Stevens, Blair, Stone, Matthew R, Tagoe, Julia, Thakuria, Joseph V, van Bon, Bregje W, van de Kamp, Jiddeke, van Der Burgt, Ineke, van Essen, Ton, van Ravenswaaij-Arts, Conny M, van Roosmalen, Markus J, Vergult, Sarah, Volker-Touw, Catharina M L, Warburton, Dorothy P, Waterman, Matthew J, Wiley, Susan, Wilson, Anna, Yerena-de Vega, Maria de la Concepcion A, Zori, Roberto T, Levy, Brynn, Brunner, Han G, de Leeuw, Nicole, Kloosterman, Wigard P, Thorland, Erik C, Morton, Cynthia C, Gusella, James F, and Talkowski, Michael E

Published

2017

54. The genomic landscape of balanced cytogenetic abnormalities associated with human congenital anomalies

Author

Genetica Klinische Genetica, Brain, CMM, Circulatory Health, Cancer, Child Health, Genetica Sectie Genoomdiagnostiek, CMM Groep Cuppen, Genetica, CMM Groep Kloosterman, Redin, Claire, Brand, Harrison, Collins, Ryan L, Kammin, Tammy, Mitchell, Elyse, Hodge, Jennelle C, Hanscom, Carrie, Pillalamarri, Vamsee, Seabra, Catarina M, Abbott, Mary-Alice, Abdul-Rahman, Omar A, Aberg, Erika, Adley, Rhett, Alcaraz-Estrada, Sofia L, Alkuraya, Fowzan S, An, Yu, Anderson, Mary-Anne, Antolik, Caroline, Anyane-Yeboa, Kwame, Atkin, Joan F, Bartell, Tina, Bernstein, Jonathan A, Beyer, Elizabeth, Blumenthal, Ian, Bongers, Ernie M H F, Brilstra, Eva H, Brown, Chester W, Brüggenwirth, Hennie T, Callewaert, Bert, Chiang, Colby, Corning, Ken, Cox, Helen, Cuppen, Edwin, Currall, Benjamin B, Cushing, Tom, David, Dezso, Deardorff, Matthew A, Dheedene, Annelies, D'Hooghe, Marc, de Vries, Bert B A, Earl, Dawn L, Ferguson, Heather L, Fisher, Heather, FitzPatrick, David R, Gerrol, Pamela, Giachino, Daniela, Glessner, Joseph T, Gliem, Troy, Grady, Margo, Graham, Brett H, Griffis, Cristin, Gripp, Karen W, Gropman, Andrea L, Hanson-Kahn, Andrea, Harris, David J, Hayden, Mark A, Hill, Rosamund, Hochstenbach, Ron, Hoffman, Jodi D, Hopkin, Robert J, Hubshman, Monika W, Innes, A Micheil, Irons, Mira, Irving, Melita, Jacobsen, Jessie C, Janssens, Sandra, Jewett, Tamison, Johnson, John P, Jongmans, Marjolijn C, Kahler, Stephen G, Koolen, David A, Korzelius, Jerome, Kroisel, Peter M, Lacassie, Yves, Lawless, William, Lemyre, Emmanuelle, Leppig, Kathleen, Levin, Alex V, Li, Haibo, Li, Hong, Liao, Eric C, Lim, Cynthia, Lose, Edward J, Lucente, Diane, Macera, Michael J, Manavalan, Poornima, Mandrile, Giorgia, Marcelis, Carlo L, Margolin, Lauren, Mason, Tamara, Masser-Frye, Diane, McClellan, Michael W, Mendoza, Cinthya J Zepeda, Menten, Björn, Middelkamp, Sjors, Mikami, Liya R, Moe, Emily, Mohammed, Shehla, Mononen, Tarja, Mortenson, Megan E, Moya, Graciela, Nieuwint, Aggie W, Ordulu, Zehra, Parkash, Sandhya, Pauker, Susan P, Pereira, Shahrin, Perrin, Danielle, Phelan, Katy, Aguilar, Raul E Piña, Poddighe, Pino J, Pregno, Giulia, Raskin, Salmo, Reis, Linda, Rhead, William, Rita, Debra, Renkens, Ivo, Roelens, Filip, Ruliera, Jayla, Rump, Patrick, Schilit, Samantha L P, Shaheen, Ranad, Sparkes, Rebecca, Spiegel, Erica, Stevens, Blair, Stone, Matthew R, Tagoe, Julia, Thakuria, Joseph V, van Bon, Bregje W, van de Kamp, Jiddeke, van Der Burgt, Ineke, van Essen, Ton, van Ravenswaaij-Arts, Conny M, van Roosmalen, Markus J, Vergult, Sarah, Volker-Touw, Catharina M L, Warburton, Dorothy P, Waterman, Matthew J, Wiley, Susan, Wilson, Anna, Yerena-de Vega, Maria de la Concepcion A, Zori, Roberto T, Levy, Brynn, Brunner, Han G, de Leeuw, Nicole, Kloosterman, Wigard P, Thorland, Erik C, Morton, Cynthia C, Gusella, James F, Talkowski, Michael E, Genetica Klinische Genetica, Brain, CMM, Circulatory Health, Cancer, Child Health, Genetica Sectie Genoomdiagnostiek, CMM Groep Cuppen, Genetica, CMM Groep Kloosterman, Redin, Claire, Brand, Harrison, Collins, Ryan L, Kammin, Tammy, Mitchell, Elyse, Hodge, Jennelle C, Hanscom, Carrie, Pillalamarri, Vamsee, Seabra, Catarina M, Abbott, Mary-Alice, Abdul-Rahman, Omar A, Aberg, Erika, Adley, Rhett, Alcaraz-Estrada, Sofia L, Alkuraya, Fowzan S, An, Yu, Anderson, Mary-Anne, Antolik, Caroline, Anyane-Yeboa, Kwame, Atkin, Joan F, Bartell, Tina, Bernstein, Jonathan A, Beyer, Elizabeth, Blumenthal, Ian, Bongers, Ernie M H F, Brilstra, Eva H, Brown, Chester W, Brüggenwirth, Hennie T, Callewaert, Bert, Chiang, Colby, Corning, Ken, Cox, Helen, Cuppen, Edwin, Currall, Benjamin B, Cushing, Tom, David, Dezso, Deardorff, Matthew A, Dheedene, Annelies, D'Hooghe, Marc, de Vries, Bert B A, Earl, Dawn L, Ferguson, Heather L, Fisher, Heather, FitzPatrick, David R, Gerrol, Pamela, Giachino, Daniela, Glessner, Joseph T, Gliem, Troy, Grady, Margo, Graham, Brett H, Griffis, Cristin, Gripp, Karen W, Gropman, Andrea L, Hanson-Kahn, Andrea, Harris, David J, Hayden, Mark A, Hill, Rosamund, Hochstenbach, Ron, Hoffman, Jodi D, Hopkin, Robert J, Hubshman, Monika W, Innes, A Micheil, Irons, Mira, Irving, Melita, Jacobsen, Jessie C, Janssens, Sandra, Jewett, Tamison, Johnson, John P, Jongmans, Marjolijn C, Kahler, Stephen G, Koolen, David A, Korzelius, Jerome, Kroisel, Peter M, Lacassie, Yves, Lawless, William, Lemyre, Emmanuelle, Leppig, Kathleen, Levin, Alex V, Li, Haibo, Li, Hong, Liao, Eric C, Lim, Cynthia, Lose, Edward J, Lucente, Diane, Macera, Michael J, Manavalan, Poornima, Mandrile, Giorgia, Marcelis, Carlo L, Margolin, Lauren, Mason, Tamara, Masser-Frye, Diane, McClellan, Michael W, Mendoza, Cinthya J Zepeda, Menten, Björn, Middelkamp, Sjors, Mikami, Liya R, Moe, Emily, Mohammed, Shehla, Mononen, Tarja, Mortenson, Megan E, Moya, Graciela, Nieuwint, Aggie W, Ordulu, Zehra, Parkash, Sandhya, Pauker, Susan P, Pereira, Shahrin, Perrin, Danielle, Phelan, Katy, Aguilar, Raul E Piña, Poddighe, Pino J, Pregno, Giulia, Raskin, Salmo, Reis, Linda, Rhead, William, Rita, Debra, Renkens, Ivo, Roelens, Filip, Ruliera, Jayla, Rump, Patrick, Schilit, Samantha L P, Shaheen, Ranad, Sparkes, Rebecca, Spiegel, Erica, Stevens, Blair, Stone, Matthew R, Tagoe, Julia, Thakuria, Joseph V, van Bon, Bregje W, van de Kamp, Jiddeke, van Der Burgt, Ineke, van Essen, Ton, van Ravenswaaij-Arts, Conny M, van Roosmalen, Markus J, Vergult, Sarah, Volker-Touw, Catharina M L, Warburton, Dorothy P, Waterman, Matthew J, Wiley, Susan, Wilson, Anna, Yerena-de Vega, Maria de la Concepcion A, Zori, Roberto T, Levy, Brynn, Brunner, Han G, de Leeuw, Nicole, Kloosterman, Wigard P, Thorland, Erik C, Morton, Cynthia C, Gusella, James F, and Talkowski, Michael E

Published

2017

55. Disorders of sex development: insights from targeted gene sequencing of a large international patient cohort

Author

Eggers, Stefanie, primary, Sadedin, Simon, additional, van den Bergen, Jocelyn A., additional, Robevska, Gorjana, additional, Ohnesorg, Thomas, additional, Hewitt, Jacqueline, additional, Lambeth, Luke, additional, Bouty, Aurore, additional, Knarston, Ingrid M., additional, Tan, Tiong Yang, additional, Cameron, Fergus, additional, Werther, George, additional, Hutson, John, additional, O’Connell, Michele, additional, Grover, Sonia R., additional, Heloury, Yves, additional, Zacharin, Margaret, additional, Bergman, Philip, additional, Kimber, Chris, additional, Brown, Justin, additional, Webb, Nathalie, additional, Hunter, Matthew F., additional, Srinivasan, Shubha, additional, Titmuss, Angela, additional, Verge, Charles F., additional, Mowat, David, additional, Smith, Grahame, additional, Smith, Janine, additional, Ewans, Lisa, additional, Shalhoub, Carolyn, additional, Crock, Patricia, additional, Cowell, Chris, additional, Leong, Gary M., additional, Ono, Makato, additional, Lafferty, Antony R., additional, Huynh, Tony, additional, Visser, Uma, additional, Choong, Catherine S., additional, McKenzie, Fiona, additional, Pachter, Nicholas, additional, Thompson, Elizabeth M., additional, Couper, Jennifer, additional, Baxendale, Anne, additional, Gecz, Jozef, additional, Wheeler, Benjamin J., additional, Jefferies, Craig, additional, MacKenzie, Karen, additional, Hofman, Paul, additional, Carter, Philippa, additional, King, Richard I., additional, Krausz, Csilla, additional, van Ravenswaaij-Arts, Conny M. A., additional, Looijenga, Leendert, additional, Drop, Sten, additional, Riedl, Stefan, additional, Cools, Martine, additional, Dawson, Angelika, additional, Juniarto, Achmad Zulfa, additional, Khadilkar, Vaman, additional, Khadilkar, Anuradha, additional, Bhatia, Vijayalakshmi, additional, Dũng, Vũ Chí, additional, Atta, Irum, additional, Raza, Jamal, additional, thi Diem Chi, Nguyen, additional, Hao, Tran Kiem, additional, Harley, Vincent, additional, Koopman, Peter, additional, Warne, Garry, additional, Faradz, Sultana, additional, Oshlack, Alicia, additional, Ayers, Katie L., additional, and Sinclair, Andrew H., additional

Published

2016

56. The genomic landscape of balanced cytogenetic abnormalities associated with human congenital anomalies

Author

Redin, Claire, primary, Brand, Harrison, additional, Collins, Ryan L, additional, Kammin, Tammy, additional, Mitchell, Elyse, additional, Hodge, Jennelle C, additional, Hanscom, Carrie, additional, Pillalamarri, Vamsee, additional, Seabra, Catarina M, additional, Abbott, Mary-Alice, additional, Abdul-Rahman, Omar A, additional, Aberg, Erika, additional, Adley, Rhett, additional, Alcaraz-Estrada, Sofia L, additional, Alkuraya, Fowzan S, additional, An, Yu, additional, Anderson, Mary-Anne, additional, Antolik, Caroline, additional, Anyane-Yeboa, Kwame, additional, Atkin, Joan F, additional, Bartell, Tina, additional, Bernstein, Jonathan A, additional, Beyer, Elizabeth, additional, Blumenthal, Ian, additional, Bongers, Ernie M H F, additional, Brilstra, Eva H, additional, Brown, Chester W, additional, Brüggenwirth, Hennie T, additional, Callewaert, Bert, additional, Chiang, Colby, additional, Corning, Ken, additional, Cox, Helen, additional, Cuppen, Edwin, additional, Currall, Benjamin B, additional, Cushing, Tom, additional, David, Dezso, additional, Deardorff, Matthew A, additional, Dheedene, Annelies, additional, D'Hooghe, Marc, additional, de Vries, Bert B A, additional, Earl, Dawn L, additional, Ferguson, Heather L, additional, Fisher, Heather, additional, FitzPatrick, David R, additional, Gerrol, Pamela, additional, Giachino, Daniela, additional, Glessner, Joseph T, additional, Gliem, Troy, additional, Grady, Margo, additional, Graham, Brett H, additional, Griffis, Cristin, additional, Gripp, Karen W, additional, Gropman, Andrea L, additional, Hanson-Kahn, Andrea, additional, Harris, David J, additional, Hayden, Mark A, additional, Hill, Rosamund, additional, Hochstenbach, Ron, additional, Hoffman, Jodi D, additional, Hopkin, Robert J, additional, Hubshman, Monika W, additional, Innes, A Micheil, additional, Irons, Mira, additional, Irving, Melita, additional, Jacobsen, Jessie C, additional, Janssens, Sandra, additional, Jewett, Tamison, additional, Johnson, John P, additional, Jongmans, Marjolijn C, additional, Kahler, Stephen G, additional, Koolen, David A, additional, Korzelius, Jerome, additional, Kroisel, Peter M, additional, Lacassie, Yves, additional, Lawless, William, additional, Lemyre, Emmanuelle, additional, Leppig, Kathleen, additional, Levin, Alex V, additional, Li, Haibo, additional, Li, Hong, additional, Liao, Eric C, additional, Lim, Cynthia, additional, Lose, Edward J, additional, Lucente, Diane, additional, Macera, Michael J, additional, Manavalan, Poornima, additional, Mandrile, Giorgia, additional, Marcelis, Carlo L, additional, Margolin, Lauren, additional, Mason, Tamara, additional, Masser-Frye, Diane, additional, McClellan, Michael W, additional, Mendoza, Cinthya J Zepeda, additional, Menten, Björn, additional, Middelkamp, Sjors, additional, Mikami, Liya R, additional, Moe, Emily, additional, Mohammed, Shehla, additional, Mononen, Tarja, additional, Mortenson, Megan E, additional, Moya, Graciela, additional, Nieuwint, Aggie W, additional, Ordulu, Zehra, additional, Parkash, Sandhya, additional, Pauker, Susan P, additional, Pereira, Shahrin, additional, Perrin, Danielle, additional, Phelan, Katy, additional, Aguilar, Raul E Piña, additional, Poddighe, Pino J, additional, Pregno, Giulia, additional, Raskin, Salmo, additional, Reis, Linda, additional, Rhead, William, additional, Rita, Debra, additional, Renkens, Ivo, additional, Roelens, Filip, additional, Ruliera, Jayla, additional, Rump, Patrick, additional, Schilit, Samantha L P, additional, Shaheen, Ranad, additional, Sparkes, Rebecca, additional, Spiegel, Erica, additional, Stevens, Blair, additional, Stone, Matthew R, additional, Tagoe, Julia, additional, Thakuria, Joseph V, additional, van Bon, Bregje W, additional, van de Kamp, Jiddeke, additional, van Der Burgt, Ineke, additional, van Essen, Ton, additional, van Ravenswaaij-Arts, Conny M, additional, van Roosmalen, Markus J, additional, Vergult, Sarah, additional, Volker-Touw, Catharina M L, additional, Warburton, Dorothy P, additional, Waterman, Matthew J, additional, Wiley, Susan, additional, Wilson, Anna, additional, Yerena-de Vega, Maria de la Concepcion A, additional, Zori, Roberto T, additional, Levy, Brynn, additional, Brunner, Han G, additional, de Leeuw, Nicole, additional, Kloosterman, Wigard P, additional, Thorland, Erik C, additional, Morton, Cynthia C, additional, Gusella, James F, additional, and Talkowski, Michael E, additional

Published

2016

57. Is there an effect of intranasal insulin on development and behaviour in Phelan-McDermid syndrome? A randomized, double-blind, placebo-controlled trial

Author

Zwanenburg, Renée J, primary, Bocca, Gianni, additional, Ruiter, Selma A J, additional, Dillingh, Jan H, additional, Flapper, Boudien C T, additional, van den Heuvel, Edwin R, additional, and van Ravenswaaij-Arts, Conny M A, additional

Published

2016

58. Haploinsufficiency of MeCP2-interacting transcriptional co-repressor SIN3A causes mild intellectual disability by affecting the development of cortical integrity

Author

Witteveen, Josefine S, primary, Willemsen, Marjolein H, additional, Dombroski, Thaís C D, additional, van Bakel, Nick H M, additional, Nillesen, Willy M, additional, van Hulten, Josephus A, additional, Jansen, Eric J R, additional, Verkaik, Dave, additional, Veenstra-Knol, Hermine E, additional, van Ravenswaaij-Arts, Conny M A, additional, Wassink-Ruiter, Jolien S Klein, additional, Vincent, Marie, additional, David, Albert, additional, Le Caignec, Cedric, additional, Schieving, Jolanda, additional, Gilissen, Christian, additional, Foulds, Nicola, additional, Rump, Patrick, additional, Strom, Tim, additional, Cremer, Kirsten, additional, Zink, Alexander M, additional, Engels, Hartmut, additional, de Munnik, Sonja A, additional, Visser, Jasper E, additional, Brunner, Han G, additional, Martens, Gerard J M, additional, Pfundt, Rolph, additional, Kleefstra, Tjitske, additional, and Kolk, Sharon M, additional

Published

2016

59. Whole-exome sequencing is a powerful approach for establishing the etiological diagnosis in patients with intellectual disability and microcephaly

Author

Rump, Patrick, primary, Jazayeri, Omid, additional, van Dijk-Bos, Krista K., additional, Johansson, Lennart F., additional, van Essen, Anthonie J., additional, Verheij, Johanna B. G. M., additional, Veenstra-Knol, Hermine E., additional, Redeker, Egbert J. W., additional, Mannens, Marcel M. A. M., additional, Swertz, Morris A., additional, Alizadeh, Behrooz Z., additional, van Ravenswaaij-Arts, Conny M. A., additional, Sinke, Richard J., additional, and Sikkema-Raddatz, Birgit, additional

Published

2015

60. Immune Dysfunction in Children with CHARGE Syndrome: A Cross-Sectional Study

Author

Wong, Monica T. Y., primary, Lambeck, Annechien J. A., additional, van der Burg, Mirjam, additional, la Bastide-van Gemert, Sacha, additional, Hogendorf, Lianne A., additional, van Ravenswaaij-Arts, Conny M. A., additional, and Schölvinck, Elisabeth H., additional

Published

2015

61. A stepped wedge design for testing an effect of intranasal insulin on cognitive development of children with Phelan-McDermid syndrome: A comparison of different designs.

Author

Van den Heuvel, Edwin R., Zwanenburg, Renée J., Van Ravenswaaij-Arts, Conny M. A., and Van Ravenswaaij-Arts, Conny Ma

Subjects

GENETIC disorders in children, COGNITIVE development, INSULIN therapy, INTRANASAL medication, MONTE Carlo method, CHILD development, CHROMOSOME abnormalities, CHROMOSOMES, CLINICAL trials, COGNITION, COMPARATIVE studies, COMPUTER simulation, INSULIN, LONGITUDINAL method, RESEARCH methodology, MEDICAL cooperation, GENETIC mutation, REGRESSION analysis, RESEARCH, STATISTICS, SYSTEM analysis, SAMPLE size (Statistics), EVALUATION research, PSYCHOLOGY

Abstract

This paper compares the power of the parallel group design, the matched-pairs design, and several options for the stepped wedge and delayed start designs for testing a possible effect of intranasal insulin with respect to placebo on developmental growth of children with a rare disorder like Phelan-McDermid syndrome. A subject-specific linear mixed effects model for the primary outcome developmental age in a longitudinal setting with five time points was assumed. Monte Carlo simulation studies with small sample sizes were applied since the rare disorder prohibits large trials. The stepped wedge designs, which were initially preferred for ethical reasons, appear to be competitive in power to other designs and were in some settings even the best. The assumed statistical model also demonstrates that all of the designs can be viewed as a stepped wedge or delayed treatment design. Our results show that the stepped wedge design is an appropriate alternative for randomized controlled trials on developmental growth with small numbers of participants under the formulated statistical conditions. [ABSTRACT FROM AUTHOR]

Published

2017

62. A novel classification system to predict the pathogenic effects of CHD7 missense variants in CHARGE syndrome

Author

Bergman, Jorieke E H, Janssen, Nicole, van der Sloot, Almer M, de Walle, Hermien E K, Schoots, Jeroen, Rendtorff, Nanna D, Tranebjaerg, Lisbeth, Hoefsloot, Lies H, van Ravenswaaij-Arts, Conny M A, Hofstra, Robert M W, Bergman, Jorieke E H, Janssen, Nicole, van der Sloot, Almer M, de Walle, Hermien E K, Schoots, Jeroen, Rendtorff, Nanna D, Tranebjaerg, Lisbeth, Hoefsloot, Lies H, van Ravenswaaij-Arts, Conny M A, and Hofstra, Robert M W

Abstract

CHARGE syndrome is characterized by the variable occurrence of multisensory impairment, congenital anomalies, and developmental delay, and is caused by heterozygous mutations in the CHD7 gene. Correct interpretation of CHD7 variants is essential for genetic counseling. This is particularly difficult for missense variants because most variants in the CHD7 gene are private and a functional assay is not yet available. We have therefore developed a novel classification system to predict the pathogenic effects of CHD7 missense variants that can be used in a diagnostic setting. Our classification system combines the results from two computational algorithms (PolyPhen-2 and Align-GVGD) and the prediction of a newly developed structural model of the chromo- and helicase domains of CHD7 with segregation and phenotypic data. The combination of different variables will lead to a more confident prediction of pathogenicity than was previously possible. We have used our system to classify 145 CHD7 missense variants. Our data show that pathogenic missense mutations are mainly present in the middle of the CHD7 gene, whereas benign variants are mainly clustered in the 5' and 3' regions. Finally, we show that CHD7 missense mutations are, in general, associated with a milder phenotype than truncating mutations.

Published

2012

63. The Results ofCHD7Analysis in Clinically Well-Characterized Patients with Kallmann Syndrome

Author

Bergman, Jorieke E. H., primary, de Ronde, Willem, additional, Jongmans, Marjolijn C. J., additional, Wolffenbuttel, Bruce H. R., additional, Drop, Sten L. S., additional, Hermus, Ad, additional, Bocca, Gianni, additional, Hoefsloot, Lies H., additional, and van Ravenswaaij-Arts, Conny M. A., additional

Published

2012

64. De novo mutations in the actin genes ACTB and ACTG1 cause Baraitser-Winter syndrome

Author

Rivière, Jean-Baptiste, primary, van Bon, Bregje W M, additional, Hoischen, Alexander, additional, Kholmanskikh, Stanislav S, additional, O'Roak, Brian J, additional, Gilissen, Christian, additional, Gijsen, Sabine, additional, Sullivan, Christopher T, additional, Christian, Susan L, additional, Abdul-Rahman, Omar A, additional, Atkin, Joan F, additional, Chassaing, Nicolas, additional, Drouin-Garraud, Valerie, additional, Fry, Andrew E, additional, Fryns, Jean-Pierre, additional, Gripp, Karen W, additional, Kempers, Marlies, additional, Kleefstra, Tjitske, additional, Mancini, Grazia M S, additional, Nowaczyk, Małgorzata J M, additional, van Ravenswaaij-Arts, Conny M A, additional, Roscioli, Tony, additional, Marble, Michael, additional, Rosenfeld, Jill A, additional, Siu, Victoria M, additional, de Vries, Bert B A, additional, Shendure, Jay, additional, Verloes, Alain, additional, Veltman, Joris A, additional, Brunner, Han G, additional, Ross, M Elizabeth, additional, Pilz, Daniela T, additional, and Dobyns, William B, additional

Published

2012

65. Practical guidelines for interpreting copy number gains detected by high-resolution array in routine diagnostics

Author

Hanemaaijer, Nicolien M, primary, Sikkema-Raddatz, Birgit, additional, van der Vries, Gerben, additional, Dijkhuizen, Trijnie, additional, Hordijk, Roel, additional, van Essen, Anthonie J, additional, Veenstra-Knol, Hermine E, additional, Kerstjens-Frederikse, Wilhelmina S, additional, Herkert, Johanna C, additional, Gerkes, Erica H, additional, Leegte, Lamberta K, additional, Kok, Klaas, additional, Sinke, Richard J, additional, and van Ravenswaaij-Arts, Conny M A, additional

Published

2011

66. Prevalence of Genetic Testing in CHARGE Syndrome

Author

Hartshorne, Timothy S., primary, Stratton, Kasee K., additional, and van Ravenswaaij-Arts, Conny M. A., additional

Published

2010

67. Alterations in the ankyrin domain of TRPV4 cause congenital distal SMA, scapuloperoneal SMA and HMSN2C

Author

Auer-Grumbach, Michaela, primary, Olschewski, Andrea, additional, Papić, Lea, additional, Kremer, Hannie, additional, McEntagart, Meriel E, additional, Uhrig, Sabine, additional, Fischer, Carina, additional, Fröhlich, Eleonore, additional, Bálint, Zoltán, additional, Tang, Bi, additional, Strohmaier, Heimo, additional, Lochmüller, Hanns, additional, Schlotter-Weigel, Beate, additional, Senderek, Jan, additional, Krebs, Angelika, additional, Dick, Katherine J, additional, Petty, Richard, additional, Longman, Cheryl, additional, Anderson, Neil E, additional, Padberg, George W, additional, Schelhaas, Helenius J, additional, van Ravenswaaij-Arts, Conny M A, additional, Pieber, Thomas R, additional, Crosby, Andrew H, additional, and Guelly, Christian, additional

Published

2009

68. Split hand/foot malformation due to chromosome 7q aberrations(SHFM1): additional support for functional haploinsufficiency as the causative mechanism

Author

van Silfhout, Anneke T, primary, van den Akker, Peter C, additional, Dijkhuizen, Trijnie, additional, Verheij, Joke B G M, additional, Olderode-Berends, Maran J W, additional, Kok, Klaas, additional, Sikkema-Raddatz, Birgit, additional, and van Ravenswaaij-Arts, Conny M A, additional

Published

2009

69. Whole-exome sequencing is a powerful approach for establishing the etiological diagnosis in patients with intellectual disability and microcephaly.

Author

Rump, Patrick, Jazayeri, Omid, van Dijk-Bos, Krista K., Johansson, Lennart F., van Essen, Anthonie J., Verheij, Johanna B. G. M., Veenstra-Knol, Hermine E., Redeker, Egbert J. W., Mannens, Marcel M. A. M., Swertz, Morris A., Alizadeh, Behrooz Z., van Ravenswaaij-Arts, Conny M. A., Sinke, Richard J., and Sikkema-Raddatz, Birgit

Subjects

EXOMES, SEQUENCE analysis, ETIOLOGY of diseases, INTELLECTUAL disabilities, MICROCEPHALY, DIAGNOSIS, PATIENTS

Abstract

Background: Clinical and genetic heterogeneity in monogenetic disorders represents a major diagnostic challenge. Although the presence of particular clinical features may aid in identifying a specific cause in some cases, the majority of patients remain undiagnosed. Here, we investigated the utility of whole-exome sequencing as a diagnostic approach for establishing a molecular diagnosis in a highly heterogeneous group of patients with varied intellectual disability and microcephaly. Methods: Whole-exome sequencing was performed in 38 patients, including three sib-pairs, in addition to or in parallel with genetic analyses that were performed during the diagnostic work-up of the study participants. Results: In ten out of these 35 families (29 %), we found mutations in genes already known to be related to a disorder in which microcephaly is a main feature. Two unrelated patients had mutations in the ASPM gene. In seven other patients we found mutations in RAB3GAP1, RNASEH2B, KIF11, ERCC8, CASK, DYRK1A and BRCA2. In one of the sib-pairs, mutations were found in the RTTN gene. Mutations were present in seven out of our ten families with an established etiological diagnosis with recessive inheritance. Conclusions: We demonstrate that whole-exome sequencing is a powerful tool for the diagnostic evaluation of patients with highly heterogeneous neurodevelopmental disorders such as intellectual disability with microcephaly. Our results confirm that autosomal recessive disorders are highly prevalent among patients with microcephaly. [ABSTRACT FROM AUTHOR]

Published

2016

70. Molecular characterisation of patients with subtelomeric 22q abnormalities using chromosome specific array-based comparative genomic hybridisation

Author

Koolen, David A, primary, Reardon, William, additional, Rosser, Elisabeth M, additional, Lacombe, Didier, additional, Hurst, Jane A, additional, Law, Caroline J, additional, Bongers, Ernie M H F, additional, van Ravenswaaij-Arts, Conny M, additional, Leisink, Martijn A R, additional, van Kessel, Ad Geurts, additional, Veltman, Joris A, additional, and de Vries, Bert B A, additional

Published

2005

71. The Influence of Artificial Ventilation on Heart Rate Variability in Very Preterm Infants

Author

Van Ravenswaaij-Arts, Conny M A, primary, Hopman, Jeroen C W, additional, Kollée, Louis A A, additional, Stoelinga, Gerard B A, additional, and Van Geijn, Herman P, additional

Published

1995

72. Practical guidelines for interpreting copy number gains detected by high-resolution array in routine diagnostics.

Author

Hanemaaijer, Nicolien M, Sikkema-Raddatz, Birgit, van der Vries, Gerben, Dijkhuizen, Trijnie, Hordijk, Roel, van Essen, Anthonie J, Veenstra-Knol, Hermine E, Kerstjens-Frederikse, Wilhelmina S, Herkert, Johanna C, Gerkes, Erica H, Leegte, Lamberta K, Kok, Klaas, Sinke, Richard J, and van Ravenswaaij-Arts, Conny M A

Subjects

GENETIC disorders, GUIDELINES, OLIGONUCLEOTIDES, NUCLEOTIDES, PHENOTYPES

Abstract

The correct interpretation of copy number gains in patients with developmental delay and multiple congenital anomalies is hampered by the large number of copy number variations (CNVs) encountered in healthy individuals. The variable phenotype associated with copy number gains makes interpretation even more difficult. Literature shows that inheritence, size and presence in healthy individuals are commonly used to decide whether a certain copy number gain is pathogenic, but no general consensus has been established. We aimed to develop guidelines for interpreting gains detected by array analysis using array CGH data of 300 patients analysed with the 105K Agilent oligo array in a diagnostic setting. We evaluated the guidelines in a second, independent, cohort of 300 patients. In the first 300 patients 797 gains of four or more adjacent oligonucleotides were observed. Of these, 45.4% were de novo and 54.6% were familial. In total, 94.8% of all de novo gains and 87.1% of all familial gains were concluded to be benign CNVs. Clinically relevant gains ranged from 288 to 7912 kb in size, and were significantly larger than benign gains and gains of unknown clinical relevance (P<0.001). Our study showed that a threshold of 200 kb is acceptable in a clinical setting, whereas heritability does not exclude a pathogenic nature of a gain. Evaluation of the guidelines in the second cohort of 300 patients revealed that the interpretation guidelines were clear, easy to follow and efficient. [ABSTRACT FROM AUTHOR]

Published

2012

73. Breakpoint analysis of balanced chromosome rearrangements by next-generation paired-end sequencing.

Author

Wei Chen, Ullmann, Reinhard, Langnick, Claudia, Menzel, Corinna, Wotschofsky, Zofia, Hu, Hao, Döring, Andreas, Yuhui Hu, Hui Kang, Tzschach, Andreas, Hoeltzenbein, Maria, Neitzel, Heidemarie, Markus, Susanne, Wiedersberg, Eberhard, Kistner, Gerd, van Ravenswaaij-Arts, Conny M. A., Kleefstra, Tjitske, Kalscheuer, Vera M, and Ropers, Hans-Hilger

Subjects

CHROMOSOMES, GENETIC disorders, NUCLEIC acids, MEDICAL genetics, DNA

Abstract

Characterisation of breakpoints in disease-associated balanced chromosome rearrangements (DBCRs), which disrupt or inactivate specific genes, has facilitated the molecular elucidation of a wide variety of genetic disorders. However, conventional methods for mapping chromosome breakpoints, such as in situ hybridisation with fluorescent dye-labelled bacterial artificial chromosome clones (BAC-FISH), are laborious, time consuming and often with insufficient resolution to unequivocally identify the disrupted gene. By combining DNA array hybridisation with chromosome sorting, the efficiency of breakpoint mapping has dramatically improved. However, this can only be applied when the physical properties of the derivative chromosomes allow them to be flow sorted. To characterise the breakpoints in all types of balanced chromosome rearrangements more efficiently and more accurately, we performed massively parallel sequencing using Illumina 1G analyser and ABI SOLiD systems to generate short sequencing reads from both ends of DNA fragments. We applied this method to four different DBCRs, including two reciprocal translocations and two inversions. By identifying read pairs spanning the breakpoints, we were able to map the breakpoints to a region of a few hundred base pairs that could be confirmed by subsequent PCR amplification and Sanger sequencing of the junction fragments. Our results show the feasibility of paired-end sequencing of systematic breakpoint mapping and gene finding in patients with disease-associated chromosome rearrangements. [ABSTRACT FROM AUTHOR]

Published

2010

74. Study of smell and reproductive organs in a mouse model for CHARGE syndrome.

Author

Bergman, Jorieke E. H., Bosman, Erika A., van Ravenswaaij-Arts, Conny M. A., and Steel, Karen P.

Subjects

GENITALIA, HEART abnormalities, ANIMAL models in research, GONADOTROPIN, PHENOTYPES

Abstract

CHARGE syndrome is a multiple congenital anomaly syndrome characterised by Coloboma, Heart defects, Atresia of choanae, Retardation of growth and/or development, Genital hypoplasia, and Ear anomalies often associated with deafness. It is caused by heterozygous mutations in the CHD7 gene and shows a highly variable phenotype. Anosmia and hypogonadotropic hypogonadism occur in the majority of the CHARGE patients, but the underlying pathogenesis is unknown. Therefore, we studied the ability to smell and aspects of the reproductive system (reproductive performance, gonadotropin-releasing hormone (GnRH) neurons and anatomy of testes and uteri) in a mouse model for CHARGE syndrome, the whirligig mouse (Chd7Whi/+). We showed that Chromodomain Helicase DNA-binding protein 7 (Chd7) is expressed in brain areas involved in olfaction and reproduction during embryonic development. We observed poorer performance in the smell test in adult Chd7Whi/+ mice, secondary either to olfactory dysfunction or to balance disturbances. Olfactory bulb and reproductive organ abnormalities were observed in a proportion of Chd7Whi/+ mice. Hypothalamic GnRH neurons were slightly reduced in Chd7Whi/+ females and reproductive performance was slightly less in Chd7Whi/+ mice. This study shows that the penetrance of anosmia and hypogonadotropic hypogonadism is lower in Chd7Whi/+ mice than in CHARGE patients. Interestingly, many phenotypic features of the Chd7 mutation showed incomplete penetrance in our model mice, despite the use of inbred, genetically identical mice. This supports the theory that the extreme variability of the CHARGE phenotype in both humans and mice might be attributed to variations in the fetal microenvironment or to purely stochastic events. [ABSTRACT FROM AUTHOR]

Published

2010

75. The influence of physiological parameters on long term heart rate variability in healthy preterm infants

Author

van Ravenswaaij-Arts, Conny M. A., primary, Hopman, Jeroen C. W., additional, Kollée, Louis A. A., additional, and Stoelinga, Gerard B. A., additional

Published

1990

76. Support for the Diagnosis of CHARGE Syndrome.

Author

van Ravenswaaij-Arts, Conny M. A., Blake, Kim, Martin, Donna M., Keiko Hirose, and Shinawi, Marwan

Published

2017

77. Diagnostic Genome Profiling in Mental Retardation.

Author

De Vries, Bert B. A., Pfundt, Rolph, Martijn Leisink, David A. Koolen, Vissers, Lisenka E. L. M., Janssen, Irene M., Van Reijmersdal, Simon, Nillesen, Willy M., Huys, Erik H. L. P. G., De Leeuw, Nicole, Smeets, Dominique, Sistermans, Erik A., Feuth, Ton, Van Ravenswaaij-Arts, Conny M. A., Van Kessel, Ad Geurts, Schoenmakers, Eric F. P. M., Brunner, Han C., and Veltman, Joris A.

Subjects

*INTELLECTUAL disabilities, *PEOPLE with intellectual disabilities, *PATHOLOGICAL psychology, *GENES, *NUCLEIC acids, *GENOMES

Abstract

Mental retardation (MR) occurs in 2%-3 % of the general population. Conventional karyotyping has a resolution of 5-10 million bases and detects chromosomal alterations in ∼5% of individuals with unexplained MR. The frequency of smaller submicroscopic chromosomal alterations in these patients is unknown. Novel molecular karyotyping methods, such as array-based comparative genomic hybridization (array CGH), can detect submicroscopic chromosome alterations at a resolution of 100 kb. In this study, 100 patients with unexplained MR were analyzed using array CGH for DNA copy-number changes by use of a novel tiling-resolution genomewide microarray containing 32,447 bacterial artificial clones. Alterations were validated by fluorescence in situ hybridization and! or multiplex ligation-dependent probe amplification, and parents were tested to determine de novo occurrence. Reproducible DNA copy-number changes were present in 97% of patients. The majority of these alterations were inherited from phenotypically normal parents, which reflects normal large-scale copy-number variation. In 10% of the patients, de novo alterations considered to be clinically relevant were found: seven deletions and three duplications. These alterations varied in size from 540 kb to 12 Mb and were scattered throughout the genome. Our results indicate that the diagnostic yield of this approach in the general population of patients with MR is at least twice as high as that of standard GTG-banded karyotyping. [ABSTRACT FROM AUTHOR]

Published

2005

78. Array-Based Comparative Genomic Hybridization for the Genomewide Detection of Submicroscopic Chromosomal Abnormalities.

Author

Vissers, Lisenka E. L. M., De Vries, Bert B. A., Osoegawa, Kazutoyo, Janssen, Irene M., Feuth, Ton, On Choy, Chik, Stratman, Huub, Van Der Vliet, Walter, Huys, Erik H. L. P. G., Van Rijk, Anke, Smeets, Dominique, Van Ravenswaaij-Arts, Conny M. A., Knoers, Nine V., Van Der Burgt, Ineke, De Jong, Pieter J., Brunner, Han G., Van Kessel, Ad Geurts, Eric F. P. M. Schoemakers, Ad Geurts, and Veltman, Joris A.

Subjects

*GENOMES, *CHROMOSOME abnormalities, *IN situ hybridization, *GENETICS

Abstract

Microdeletions and microduplications, not visible by routine chromosome analysis, are a major cause of human malformation and mental retardation. Novel high-resolution, whole-genome technologies can improve the diagnostic detection rate of these small chromosomal abnormalities. Array-based comparative genomic hybridization allows such a high-resolution screening by hybridizing differentially labeled test and reference DNAs to arrays consisting of thousands of genomic clones. In this study, we tested the diagnostic capacity of this technology using ∼3,500 flourescent in situ hybridization­verified clones selected to cover the genome with an average of 1 clone per megabase (Mb). The sensitivity and specificity of the technology were tested in normal-versus-normal control experiments and through the screening of patients with known microdeletion syndromes. Subsequently, a series of 20 cytogenetically normal patients with mental retardation and dysmorphisms suggestive of a chromosomal abnormality were analyzed. In this series, three microdeletions and two microduplications were identified and validated. Two of these genomic changes were identified also in one of the parents, indicating that these are large-scale genomic polymorphisms. Deletions and duplications as small as 1 Mb could be reliably detected by our approach. The percentage of false-positive results was reduced to a minimum by use of a dye-swap-replicate analysis, all but eliminating the need for laborious validation experiments and facilitating implementation in a routine diagnostic setting. This high-resolution assay will facilitate the identification of novel genes involved in human mental retardation and/or malformation syndromes and will provide insight into the flexibility and plasticity of the human genome. [ABSTRACT FROM AUTHOR]

Published

2003

79. Definition and clinical variability of SHANK3-related Phelan-McDermid syndrome.

Author

Schön M, Lapunzina P, Nevado J, Mattina T, Gunnarsson C, Hadzsiev K, Verpelli C, Bourgeron T, Jesse S, van Ravenswaaij-Arts CMA, and Hennekam RC

Subjects

Humans, DNA Copy Number Variations, Nerve Tissue Proteins genetics, Chromosome Deletion, Phenotype, Syndrome, Chromosomes, Human, Pair 22 genetics, Intellectual Disability genetics, Intellectual Disability complications, Chromosome Disorders diagnosis, Chromosome Disorders genetics, Chromosome Disorders pathology

Abstract

Phelan-McDermid syndrome (PMS) is an infrequently described syndrome that presents with a disturbed development, neurological and psychiatric characteristics, and sometimes other comorbidities. As part of the development of European medical guidelines we studied the definition, phenotype, genotype-phenotype characteristics, and natural history of the syndrome. The number of confirmed diagnoses of PMS in different European countries was also assessed and it could be concluded that PMS is underdiagnosed. The incidence of PMS in European countries is estimated to be at least 1 in 30,000. Next generation sequencing, including analysis of copy number variations, as first tier in diagnostics of individuals with intellectual disability will likely yield a larger number of individuals with PMS than presently known. A definition of PMS by its phenotype is at the present not possible, and therefore PMS-SHANK3 related is defined by the presence of SHANK3 haploinsufficiency, either by a deletion involving region 22q13.2-33 or a pathogenic/likely pathogenic variant in SHANK3. In summarizing the phenotype, we subdivided it into that of individuals with a 22q13 deletion and that of those with a pathogenic/likely pathogenic SHANK3 variant. The phenotype of individuals with PMS is variable, depending in part on the deletion size or whether only a variant of SHANK3 is present. The core phenotype in the domains development, neurology, and senses are similar in those with deletions and SHANK3 variants, but individuals with a SHANK3 variant more often are reported to have behavioural disorders and less often urogenital malformations and lymphedema. The behavioural disorders may, however, be a less outstanding feature in individuals with deletions accompanied by more severe intellectual disability. Data available on the natural history are limited. Results of clinical trials using IGF-1, intranasal insulin, and oxytocin are available, other trials are in progress. The present guidelines for PMS aim at offering tools to caregivers and families to provide optimal care to individuals with PMS., (Copyright © 2023 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published

2023

80. Consensus recommendations on counselling in Phelan-McDermid syndrome, with special attention to recurrence risk and to ring chromosome 22.

Author

Koza SA, Tabet AC, Bonaglia MC, Andres S, Anderlid BM, Aten E, Stiefsohn D, Evans DG, van Ravenswaaij-Arts CMA, and Kant SG

Subjects

Adolescent, Female, Humans, Pregnancy, Chromosome Deletion, Chromosomes, Human, Pair 22 genetics, Counseling, Chromosome Disorders genetics, Neurofibromatosis 2 genetics, Ring Chromosomes

Abstract

This paper focuses on genetic counselling in Phelan-McDermid syndrome (PMS), a rare neurodevelopmental disorder caused by a deletion 22q13.3 or a pathogenic variant in SHANK3. It is one of a series of papers written by the European PMS consortium as a consensus guideline. We reviewed the available literature based on pre-set questions to formulate recommendations on counselling, diagnostic work-up and surveillance for tumours related to ring chromosome 22. All recommendations were approved by the consortium, which consists of professionals and patient representatives, using a voting procedure. PMS can only rarely be diagnosed based solely on clinical features and requires confirmation via genetic testing. In most cases, the family will be referred to a clinical geneticist for counselling after the genetic diagnosis has been made. Family members will be investigated and, if indicated, the chance of recurrence discussed with them. Most individuals with PMS have a de novo deletion or a pathogenic variant of SHANK3. The 22q13.3 deletion can be a simple deletion, a ring chromosome 22, or the result of a parental balanced chromosomal anomaly, influencing the risk of recurrence. Individuals with a ring chromosome 22 have an increased risk of NF2-related schwannomatosis (formerly neurofibromatosis type 2) and atypical teratoid rhabdoid tumours, which are associated with the tumour-suppressor genes NF2 and SMARCB1, respectively, and both genes are located on chromosome 22. The prevalence of PMS due to a ring chromosome 22 is estimated to be 10-20%. The risk of developing a tumour in an individual with a ring chromosome 22 can be calculated as 2-4%. However, those individuals who do develop tumours often have multiple. We recommend referring all individuals with PMS and their parents to a clinical geneticist or a comparably experienced medical specialist for genetic counselling, further genetic testing, follow-up and discussion of prenatal diagnostic testing in subsequent pregnancies. We also recommend karyotyping to diagnose or exclude a ring chromosome 22 in individuals with a deletion 22q13.3 detected by molecular tests. If a ring chromosome 22 is found, we recommend discussing personalised follow-up for NF2-related tumours and specifically cerebral imaging between the age of 14 and 16 years., (Copyright © 2023 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published

2023

81. Editorial: Towards a European consensus guideline for Phelan-McDermid syndrome.

Author

van Ravenswaaij-Arts CMA, van Balkom IDC, Jesse S, and Bonaglia MC

Subjects

Humans, Chromosome Deletion, Chromosomes, Human, Pair 22 genetics, Chromosome Disorders diagnosis, Chromosome Disorders genetics

Published

2023

82. Changes in empowerment and anxiety of patients and parents during genetic counselling for epilepsy.

Author

Vlaskamp DRM, Rump P, Callenbach PMC, Brilstra EH, Velthuizen ME, Brouwer OF, Ranchor AV, and van Ravenswaaij-Arts CMA

Subjects

Adult, Aged, Female, Genetic Testing, Humans, Male, Middle Aged, Parents psychology, Patient Participation methods, Surveys and Questionnaires, Young Adult, Anxiety psychology, Epilepsy psychology, Genetic Counseling psychology, Patient Participation psychology

Abstract

Genetic testing and counselling are increasingly important in epilepsy care, aiming at finding a diagnosis, understanding aetiology and improving treatment and outcome. The psychological impact of genetic counselling from patients' or parents' perspectives is, however, unknown. We studied the counselee-reported outcome of genetic counselling before and after genetic testing for epilepsy by evaluating empowerment - a key outcome goal of counselling reflecting cognitive, decisional and behavioural control, emotional regulation and hope - and anxiety. We asked patients or their parents (for those <16 years or intellectually disabled) referred for genetic testing for epilepsy in two university hospitals between June 2014 and 2017 to complete the same two questionnaires at three timepoints: before and after pre-test counselling and after post-test counselling. Empowerment was measured with the Genetic Counselling Outcome Scale (GCOS-18); anxiety with the short State Trait Anxiety Inventory (STAI-6). A total of 63 participants (55 parents with the age of 29-66 years; 8 patients with the age of 21-42 years) were included in our study. Empowerment significantly increased during the genetic counselling trajectory with a medium effect size (p < 0.001, d = 0.57). A small but significant increase in empowerment was already seen after pre-test counselling (p = 0.038, d = 0.29). Anxiety did not change significantly during the counselling trajectory (p = 0.223, d = -0.24). Our study highlights that patients with epilepsy or their parents show a clinically relevant increase in empowerment after genetic counselling. Empowerment was already increased after pre-test counselling, suggesting the importance of counselling before initiating genetic testing for epilepsy. However, individual differences in changes in empowerment and anxiety were seen, suggesting that counselling could be further improved, based on individual needs., Competing Interests: Declaration of competing interest None of the authors have any conflicts of interest to disclose., (Copyright © 2021 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2021

83. An analysis of body proportions in children with CHARGE syndrome using photogrammetric anthropometry.

Author

Penders B, Dijk DR, Bocca G, Zimmermann LJI, van Ravenswaaij-Arts CMA, and Gerver WM

Subjects

Adolescent, Anthropometry instrumentation, Body Height, CHARGE Syndrome genetics, CHARGE Syndrome pathology, Child, Child, Preschool, Cross-Sectional Studies, Female, Head abnormalities, Humans, Male, Photogrammetry instrumentation, Torso abnormalities, Anthropometry methods, CHARGE Syndrome diagnosis, Photogrammetry methods

Abstract

Background: Growth retardation is one of the main hallmarks of CHARGE syndrome (CS), yet little is known about the body proportions of these children. Knowledge of body proportions in CS may contribute to a better characterization of this syndrome. This knowledge is important when considering starting growth-stimulating therapy., Methods: For this cross-sectional study, we selected 32 children with CS and a CHD7 mutation at the Dutch CHARGE Family Day in 2016 or 2017 and the International CHARGE conference in Orlando, Florida, in 2017. We used photogrammetric anthropometry-a measurement method based on digital photographs-to determine various body proportions. We compared these to measurements in 21 normally proportioned children with growth hormone deficiency, using independent-samples t test, Mann-Whitney U test, or chi-square test as appropriate., Results: Children with CS appear to have a shorter trunk in proportion to their height, head length, and arm length. Children with CS also had smaller feet proportional to tibia length compared to controls. The change of body proportions with age was similar in children with CS and controls., Conclusion: Body proportions in children with CS are significantly different from those of normally proportioned controls, but a similar change of body proportions with age was noted for both groups., (© 2019 The Authors. American Journal of Medical Genetics Part A published by Wiley Periodicals, Inc.)

Published

2019

84. PRRT2-related phenotypes in patients with a 16p11.2 deletion.

Author

Vlaskamp DRM, Callenbach PMC, Rump P, Giannini LAA, Brilstra EH, Dijkhuizen T, Vos YJ, van der Kevie-Kersemaekers AF, Knijnenburg J, de Leeuw N, van Minkelen R, Ruivenkamp CAL, Stegmann APA, Brouwer OF, and van Ravenswaaij-Arts CMA

Subjects

Adolescent, Adult, Autistic Disorder pathology, Child, Child, Preschool, Chromosome Deletion, Chromosome Disorders pathology, Chromosomes, Human, Pair 16 genetics, Female, Humans, Intellectual Disability pathology, Male, Autistic Disorder genetics, Chromosome Disorders genetics, Intellectual Disability genetics, Membrane Proteins genetics, Nerve Tissue Proteins genetics, Phenotype

Abstract

We studied the presence of benign infantile epilepsy (BIE), paroxysmal kinesigenic dyskinesia (PKD), and PKD with infantile convulsions (PKD/IC) in patients with a 16p11.2 deletion including PRRT2 or with a PRRT2 loss-of-function sequence variant. Index patients were recruited from seven Dutch university hospitals. The presence of BIE, PKD and PKD/IC was retrospectively evaluated using questionnaires and medical records. We included 33 patients with a 16p11.2 deletion: three (9%) had BIE, none had PKD or PKD/IC. Twelve patients had a PRRT2 sequence variant: BIE was present in four (p = 0.069), PKD in six (p < 0.001) and PKD/IC in two (p = 0.067). Most patients with a deletion had undergone genetic testing because of developmental problems (87%), whereas all patients with a sequence variant were tested because of a movement disorder (55%) or epilepsy (45%). BIE, PKD and PKD/IC clearly showed incomplete penetrance in patients with 16p11.2 deletions, but were found in all and 95% of patients with a PRRT2 sequence variant in our study and a large literature cohort, respectively. Deletions and sequence variants have the same underlying loss-of-function disease mechanism. Thus, differences in ascertainment have led to overestimating the frequency of BIE, PKD and PKD/IC in patients with a PRRT2 sequence variant. This has important implications for counseling if genome-wide sequencing shows such variants in patients not presenting the PRRT2-related phenotypes., (Copyright © 2018 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published

2019

85. SYNGAP1 encephalopathy: A distinctive generalized developmental and epileptic encephalopathy.

Author

Vlaskamp DRM, Shaw BJ, Burgess R, Mei D, Montomoli M, Xie H, Myers CT, Bennett MF, XiangWei W, Williams D, Maas SM, Brooks AS, Mancini GMS, van de Laar IMBH, van Hagen JM, Ware TL, Webster RI, Malone S, Berkovic SF, Kalnins RM, Sicca F, Korenke GC, van Ravenswaaij-Arts CMA, Hildebrand MS, Mefford HC, Jiang Y, Guerrini R, and Scheffer IE

Subjects

Adolescent, Adult, Anticonvulsants therapeutic use, Brain diagnostic imaging, Brain Diseases complications, Brain Diseases diagnostic imaging, Brain Diseases genetics, Child, Child, Preschool, Cohort Studies, Developmental Disabilities complications, Developmental Disabilities diagnostic imaging, Electroencephalography, Female, Genetic Association Studies, Humans, Infant, Male, Spasms, Infantile complications, Spasms, Infantile diagnostic imaging, Spasms, Infantile drug therapy, Young Adult, Developmental Disabilities genetics, Mutation genetics, Spasms, Infantile genetics, ras GTPase-Activating Proteins genetics

Abstract

Objective: To delineate the epileptology, a key part of the SYNGAP1 phenotypic spectrum, in a large patient cohort., Methods: Patients were recruited via investigators' practices or social media. We included patients with (likely) pathogenic SYNGAP1 variants or chromosome 6p21.32 microdeletions incorporating SYNGAP1 . We analyzed patients' phenotypes using a standardized epilepsy questionnaire, medical records, EEG, MRI, and seizure videos., Results: We included 57 patients (53% male, median age 8 years) with SYNGAP1 mutations (n = 53) or microdeletions (n = 4). Of the 57 patients, 56 had epilepsy: generalized in 55, with focal seizures in 7 and infantile spasms in 1. Median seizure onset age was 2 years. A novel type of drop attack was identified comprising eyelid myoclonia evolving to a myoclonic-atonic (n = 5) or atonic (n = 8) seizure. Seizure types included eyelid myoclonia with absences (65%), myoclonic seizures (34%), atypical (20%) and typical (18%) absences, and atonic seizures (14%), triggered by eating in 25%. Developmental delay preceded seizure onset in 54 of 56 (96%) patients for whom early developmental history was available. Developmental plateauing or regression occurred with seizures in 56 in the context of a developmental and epileptic encephalopathy (DEE). Fifty-five of 57 patients had intellectual disability, which was moderate to severe in 50. Other common features included behavioral problems (73%); high pain threshold (72%); eating problems, including oral aversion (68%); hypotonia (67%); sleeping problems (62%); autism spectrum disorder (54%); and ataxia or gait abnormalities (51%)., Conclusions: SYNGAP1 mutations cause a generalized DEE with a distinctive syndrome combining epilepsy with eyelid myoclonia with absences and myoclonic-atonic seizures, as well as a predilection to seizures triggered by eating., (Copyright © 2018 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published

2019

86. GRIN2A-related disorders: genotype and functional consequence predict phenotype.

Author

Strehlow V, Heyne HO, Vlaskamp DRM, Marwick KFM, Rudolf G, de Bellescize J, Biskup S, Brilstra EH, Brouwer OF, Callenbach PMC, Hentschel J, Hirsch E, Kind PC, Mignot C, Platzer K, Rump P, Skehel PA, Wyllie DJA, Hardingham GE, van Ravenswaaij-Arts CMA, Lesca G, and Lemke JR

Subjects

Adolescent, Adult, Aged, Animals, Cells, Cultured, Cerebellar Cortex metabolism, Child, Child, Preschool, Epilepsy physiopathology, Female, Genotype, Humans, Infant, Male, Middle Aged, Mutation, Neurodevelopmental Disorders physiopathology, Phenotype, Rats, Receptors, N-Methyl-D-Aspartate metabolism, Receptors, N-Methyl-D-Aspartate physiology, Young Adult, Epilepsy genetics, Neurodevelopmental Disorders genetics, Receptors, N-Methyl-D-Aspartate genetics

Abstract

Alterations of the N-methyl-d-aspartate receptor (NMDAR) subunit GluN2A, encoded by GRIN2A, have been associated with a spectrum of neurodevelopmental disorders with prominent speech-related features, and epilepsy. We performed a comprehensive assessment of phenotypes with a standardized questionnaire in 92 previously unreported individuals with GRIN2A-related disorders. Applying the criteria of the American College of Medical Genetics and Genomics to all published variants yielded 156 additional cases with pathogenic or likely pathogenic variants in GRIN2A, resulting in a total of 248 individuals. The phenotypic spectrum ranged from normal or near-normal development with mild epilepsy and speech delay/apraxia to severe developmental and epileptic encephalopathy, often within the epilepsy-aphasia spectrum. We found that pathogenic missense variants in transmembrane and linker domains (misTMD+Linker) were associated with severe developmental phenotypes, whereas missense variants within amino terminal or ligand-binding domains (misATD+LBD) and null variants led to less severe developmental phenotypes, which we confirmed in a discovery (P = 10-6) as well as validation cohort (P = 0.0003). Other phenotypes such as MRI abnormalities and epilepsy types were also significantly different between the two groups. Notably, this was paralleled by electrophysiology data, where misTMD+Linker predominantly led to NMDAR gain-of-function, while misATD+LBD exclusively caused NMDAR loss-of-function. With respect to null variants, we show that Grin2a+/- cortical rat neurons also had reduced NMDAR function and there was no evidence of previously postulated compensatory overexpression of GluN2B. We demonstrate that null variants and misATD+LBD of GRIN2A do not only share the same clinical spectrum (i.e. milder phenotypes), but also result in similar electrophysiological consequences (loss-of-function) opposing those of misTMD+Linker (severe phenotypes; predominantly gain-of-function). This new pathomechanistic model may ultimately help in predicting phenotype severity as well as eligibility for potential precision medicine approaches in GRIN2A-related disorders.

Published

2019

87. Support for the Diagnosis of CHARGE Syndrome.

Author

van Ravenswaaij-Arts CMA, Blake K, and Martin DM

Subjects

Craniofacial Abnormalities, Dandy-Walker Syndrome, Heart Septal Defects, Atrial, Humans, Prevalence, Semicircular Canals, Abnormalities, Multiple, CHARGE Syndrome

Published

2017

88. The genomic landscape of balanced cytogenetic abnormalities associated with human congenital anomalies.

Author

Redin C, Brand H, Collins RL, Kammin T, Mitchell E, Hodge JC, Hanscom C, Pillalamarri V, Seabra CM, Abbott MA, Abdul-Rahman OA, Aberg E, Adley R, Alcaraz-Estrada SL, Alkuraya FS, An Y, Anderson MA, Antolik C, Anyane-Yeboa K, Atkin JF, Bartell T, Bernstein JA, Beyer E, Blumenthal I, Bongers EM, Brilstra EH, Brown CW, Brüggenwirth HT, Callewaert B, Chiang C, Corning K, Cox H, Cuppen E, Currall BB, Cushing T, David D, Deardorff MA, Dheedene A, D'Hooghe M, de Vries BB, Earl DL, Ferguson HL, Fisher H, FitzPatrick DR, Gerrol P, Giachino D, Glessner JT, Gliem T, Grady M, Graham BH, Griffis C, Gripp KW, Gropman AL, Hanson-Kahn A, Harris DJ, Hayden MA, Hill R, Hochstenbach R, Hoffman JD, Hopkin RJ, Hubshman MW, Innes AM, Irons M, Irving M, Jacobsen JC, Janssens S, Jewett T, Johnson JP, Jongmans MC, Kahler SG, Koolen DA, Korzelius J, Kroisel PM, Lacassie Y, Lawless W, Lemyre E, Leppig K, Levin AV, Li H, Li H, Liao EC, Lim C, Lose EJ, Lucente D, Macera MJ, Manavalan P, Mandrile G, Marcelis CL, Margolin L, Mason T, Masser-Frye D, McClellan MW, Mendoza CJ, Menten B, Middelkamp S, Mikami LR, Moe E, Mohammed S, Mononen T, Mortenson ME, Moya G, Nieuwint AW, Ordulu Z, Parkash S, Pauker SP, Pereira S, Perrin D, Phelan K, Aguilar RE, Poddighe PJ, Pregno G, Raskin S, Reis L, Rhead W, Rita D, Renkens I, Roelens F, Ruliera J, Rump P, Schilit SL, Shaheen R, Sparkes R, Spiegel E, Stevens B, Stone MR, Tagoe J, Thakuria JV, van Bon BW, van de Kamp J, van Der Burgt I, van Essen T, van Ravenswaaij-Arts CM, van Roosmalen MJ, Vergult S, Volker-Touw CM, Warburton DP, Waterman MJ, Wiley S, Wilson A, Yerena-de Vega MC, Zori RT, Levy B, Brunner HG, de Leeuw N, Kloosterman WP, Thorland EC, Morton CC, Gusella JF, and Talkowski ME

Subjects

Female, Humans, Male, Chromosome Aberrations, Congenital Abnormalities genetics, Gene Rearrangement, Genetic Markers genetics, Genetic Predisposition to Disease, Genome-Wide Association Study

Abstract

Despite the clinical significance of balanced chromosomal abnormalities (BCAs), their characterization has largely been restricted to cytogenetic resolution. We explored the landscape of BCAs at nucleotide resolution in 273 subjects with a spectrum of congenital anomalies. Whole-genome sequencing revised 93% of karyotypes and demonstrated complexity that was cryptic to karyotyping in 21% of BCAs, highlighting the limitations of conventional cytogenetic approaches. At least 33.9% of BCAs resulted in gene disruption that likely contributed to the developmental phenotype, 5.2% were associated with pathogenic genomic imbalances, and 7.3% disrupted topologically associated domains (TADs) encompassing known syndromic loci. Remarkably, BCA breakpoints in eight subjects altered a single TAD encompassing MEF2C, a known driver of 5q14.3 microdeletion syndrome, resulting in decreased MEF2C expression. We propose that sequence-level resolution dramatically improves prediction of clinical outcomes for balanced rearrangements and provides insight into new pathogenic mechanisms, such as altered regulation due to changes in chromosome topology., Competing Interests: The authors have none to declare.

Published

2017

89. The phenotypic spectrum of Schaaf-Yang syndrome: 18 new affected individuals from 14 families.

Author

Fountain MD, Aten E, Cho MT, Juusola J, Walkiewicz MA, Ray JW, Xia F, Yang Y, Graham BH, Bacino CA, Potocki L, van Haeringen A, Ruivenkamp CA, Mancias P, Northrup H, Kukolich MK, Weiss MM, van Ravenswaaij-Arts CM, Mathijssen IB, Levesque S, Meeks N, Rosenfeld JA, Lemke D, Hamosh A, Lewis SK, Race S, Stewart LL, Hay B, Lewis AM, Guerreiro RL, Bras JT, Martins MP, Derksen-Lubsen G, Peeters E, Stumpel C, Stegmann S, Bok LA, Santen GW, and Schaaf CP

Subjects

Adolescent, Adult, Autism Spectrum Disorder physiopathology, Child, Child, Preschool, Chromosomes, Human, Pair 15, Developmental Disabilities physiopathology, Female, Gene Expression, Genomic Imprinting, Humans, Infant, Infant, Newborn, Intellectual Disability physiopathology, Male, Mutation, Phenotype, Prader-Willi Syndrome physiopathology, Autism Spectrum Disorder genetics, Developmental Disabilities genetics, Intellectual Disability genetics, Prader-Willi Syndrome genetics, Proteins genetics

Abstract

Purpose: Truncating mutations in the maternally imprinted, paternally expressed gene MAGEL2, which is located in the Prader-Willi critical region 15q11-13, have recently been reported to cause Schaaf-Yang syndrome, a Prader-Willi-like disease that manifests as developmental delay/intellectual disability, hypotonia, feeding difficulties, and autism spectrum disorder. The causality of the reported variants in the context of the patients' phenotypes was questioned, as MAGEL2 whole-gene deletions seem to cause little or no clinical phenotype., Methods: Here we report a total of 18 newly identified individuals with Schaaf-Yang syndrome from 14 families, including 1 family with 3 individuals found to be affected with a truncating variant of MAGEL2, 11 individuals who are clinically affected but were not tested molecularly, and a presymptomatic fetal sibling carrying the pathogenic MAGEL2 variant., Results: All cases harbor truncating mutations of MAGEL2, and nucleotides c.1990-1996 arise as a mutational hotspot, with 10 individuals and 1 fetus harboring a c.1996dupC (p.Q666fs) mutation and 2 fetuses harboring a c.1996delC (p.Q666fs) mutation. The phenotypic spectrum of Schaaf-Yang syndrome ranges from fetal akinesia to neurobehavioral disease and contractures of the small finger joints., Conclusion: This study provides strong evidence for the pathogenicity of truncating mutations of the paternal allele of MAGEL2, refines the associated clinical phenotypes, and highlights implications for genetic counseling for affected families.Genet Med 19 1, 45-52.

Published

2017

90. CREBBP mutations in individuals without Rubinstein-Taybi syndrome phenotype.

Author

Menke LA, van Belzen MJ, Alders M, Cristofoli F, Ehmke N, Fergelot P, Foster A, Gerkes EH, Hoffer MJ, Horn D, Kant SG, Lacombe D, Leon E, Maas SM, Melis D, Muto V, Park SM, Peeters H, Peters DJ, Pfundt R, van Ravenswaaij-Arts CM, Tartaglia M, and Hennekam RC

Subjects

Adolescent, Adult, Alleles, Amino Acid Sequence, Child, Child, Preschool, Exome, Exons, Facies, Female, Genotype, High-Throughput Nucleotide Sequencing, Humans, Infant, Male, Mutation, Missense, Young Adult, CREB-Binding Protein genetics, Genetic Association Studies, Mutation, Phenotype, Rubinstein-Taybi Syndrome diagnosis, Rubinstein-Taybi Syndrome genetics

Abstract

Mutations in CREBBP cause Rubinstein-Taybi syndrome. By using exome sequencing, and by using Sanger in one patient, CREBBP mutations were detected in 11 patients who did not, or only in a very limited manner, resemble Rubinstein-Taybi syndrome. The combined facial signs typical for Rubinstein-Taybi syndrome were absent, none had broad thumbs, and three had only somewhat broad halluces. All had apparent developmental delay (being the reason for molecular analysis); five had short stature and seven had microcephaly. The facial characteristics were variable; main characteristics were short palpebral fissures, telecanthi, depressed nasal ridge, short nose, anteverted nares, short columella, and long philtrum. Six patients had autistic behavior, and two had self-injurious behavior. Other symptoms were recurrent upper airway infections (n = 5), feeding problems (n = 7) and impaired hearing (n = 7). Major malformations occurred infrequently. All patients had a de novo missense mutation in the last part of exon 30 or beginning of exon 31 of CREBBP, between base pairs 5,128 and 5,614 (codons 1,710 and 1,872). No missense or truncating mutations in this region have been described to be associated with the classical Rubinstein-Taybi syndrome phenotype. No functional studies have (yet) been performed, but we hypothesize that the mutations disturb protein-protein interactions by altering zinc finger function. We conclude that patients with missense mutations in this specific CREBBP region show a phenotype that differs substantially from that in patients with Rubinstein-Taybi syndrome, and may prove to constitute one (or more) separate entities. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

91. Central Adrenal Insufficiency Is Not a Common Feature in CHARGE Syndrome: A Cross-Sectional Study in 2 Cohorts.

Author

Wong MT, van Ravenswaaij-Arts CM, Munns CF, Hsu P, Mehr S, and Bocca G

Subjects

Adolescent, Adrenal Insufficiency epidemiology, Child, Child, Preschool, Cross-Sectional Studies, Female, Humans, Infant, Male, Adrenal Insufficiency etiology, CHARGE Syndrome complications

Abstract

Objective: To evaluate whether central adrenal insufficiency (CAI) is present in CHARGE (Coloboma of the eye, Heart defects, Atresia of the choanae, Retardation of growth and/or development, Genital hypoplasia, and Ear abnormalities, including deafness) syndrome, a complex malformation disorder that includes central endocrine dysfunction., Study Design: Two cross-sectional studies were performed in Dutch (September 2013-February 2015) and Australian (January 2012-January 2014) CHARGE syndrome clinics. Twenty-seven Dutch and 19 Australian patients (aged 16 months-18 years) with genetically confirmed CHARGE syndrome were included. The low-dose adrenocorticotropin (ACTH) test was used to assess CAI in the Dutch cohort. A peak cortisol response less than 18.1 μg/dL (500 nmol/L) was suspected for CAI, and a glucagon stimulation test was performed for confirmation. Australian patients were screened by single measurements of ACTH and cortisol levels. If adrenal dysfunction was suspected, a standard-dose ACTH test was performed., Results: The low-dose ACTH test was performed in 23 patients (median age 8.4 [1.9-16.9] years). Seven patients showed an insufficient maximum cortisol level (10.3-17.6 μg/dL, 285-485 nmol/L), but CAI was confirmed by glucagon stimulation test in only 1 patient (maximum cortisol level 15.0 μg/dL, 415 nmol/L). In the Australian cohort, 15 patients (median age 9.1 [1.3-17.8] years) were screened, and none had CAI., Conclusions: CAI was not common in our cohorts, and routine testing of adrenal function in children with CHARGE syndrome is not indicated., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

92. Congenital arch vessel anomalies in CHARGE syndrome: A frequent feature with risk for co-morbidity.

Author

Corsten-Janssen N, van Ravenswaaij-Arts CMA, and Kapusta L

Abstract

Background: CHARGE syndrome is a complex multiple congenital malformation disorder with variable expression that is caused by mutations in the CHD7 gene. Variable heart defects occur in 74% of patients with a CHD7 mutation, with an overrepresentation of atrioventricular septal defects and conotruncal defects - including arch vessel anomalies., Methods and Results: We report an index patient with an arch vessel anomaly underlying serious feeding problems that resolved after arch vessel surgery. This led us to examine the incidence of arch vessel anomalies in our previously studied cohort of 299 patients with a CHD7 mutation. Forty-two patients (14%) had an aortic arch anomaly, mostly aberrant subclavian artery or right aortic arch, which usually occurred in combination with other congenital heart defects (81%). The majority of these patients also had feeding problems that may be linked to their arch anomaly, but insufficient information was available to exclude other causes., Conclusions: Arch vessel anomalies occur in a significant proportion of patients with a CHD7 mutation, and these anomalies may cause morbidity due to compression of the esophagus or trachea. Since symptoms of vascular compression can mimic those caused by other abnormalities in CHARGE syndrome, it is important to be aware of arch vessel anomalies in this complex patient category. Whether a solitary arch vessel anomaly is an indicator for CHARGE syndrome still needs to be studied, but doctors should look out for other CHARGE syndrome features in patients with arch vessel anomalies.

Published

2016

93. Haploinsufficiency of the STX1B gene is associated with myoclonic astatic epilepsy.

Author

Vlaskamp DR, Rump P, Callenbach PM, Vos YJ, Sikkema-Raddatz B, van Ravenswaaij-Arts CM, and Brouwer OF

Subjects

Adolescent, Epilepsies, Myoclonic diagnosis, Humans, Male, Sequence Deletion genetics, Epilepsies, Myoclonic genetics, Haploinsufficiency genetics, Syntaxin 1 genetics

Abstract

We describe an 18-year-old male patient with myoclonic astatic epilepsy (MAE), moderate to severe intellectual disability, behavioural problems, several dysmorphisms and a 1.2-Mb de novo deletion on chromosome 16p11.2. This deletion results in haploinsufficiency of STX1B and other genes. Recently, variants in the STX1B gene have been associated with a wide spectrum of fever-related epilepsies ranging from single febrile seizures to severe epileptic encephalopathies. Two previously reported patients with a STX1B missense variant or deletion were diagnosed with MAE. Our observation of a STX1B deletion in a third patient with MAE therefore supports that STX1B gene variants or deletions can be involved in the aetiology of MAE. Furthermore, STX1B encodes for syntaxin-1B, of which interaction with the protein encoded by the STXBP1 gene is essential for the regulation of the synaptic transmission of neurotransmitters. STXBP1 gene variants have been identified in patients with many different types of epilepsy, including Dravet syndrome and epileptic encephalopathies, suggesting STX1B plays a similar role. We recommend that analysis of STX1B should be considered in the diagnostic work-up of individuals with MAE., (Copyright © 2016 European Paediatric Neurology Society. Published by Elsevier Ltd. All rights reserved.)

Published

2016

94. Developmental phenotype in Phelan-McDermid (22q13.3 deletion) syndrome: a systematic and prospective study in 34 children.

Author

Zwanenburg RJ, Ruiter SA, van den Heuvel ER, Flapper BC, and Van Ravenswaaij-Arts CM

Abstract

Background: Phelan-McDermid syndrome (PMS) or 22q13.3 deletion syndrome is characterized by global developmental delay, cognitive deficits, and behaviour in the autism spectrum. Knowledge about developmental and behavioural characteristics of this rare chromosomal disorder is still limited despite a rapid growing number of diagnoses. Our aim was to study a new and relatively large cohort to further characterize the developmental phenotype of children with PMS., Methods: We performed a descriptive study of children with a 22q13.3 deletion including SHANK3, aged 8 to 178 months, who were systematically (n = 34) and longitudinally (n = 29) assessed with standardized instruments: Bayley Scales of Infant and Toddler Development, third edition; Wechsler Preschool and Primary Scale of Intelligence, third edition; and Vineland Screener for Social and Adaptive Behavior., Results: Maximal developmental functioning ranged from 34 to 52 months depending on the developmental domain. In general, children performed poorest in the domain of language and best on the domain of motor (young children) or cognitive development (older children). At the individual level, 25 % scored better for receptive and 18 % for expressive language, whereas 22 % scored better for fine and 33 % for gross motor function. Developmental quotients were higher in younger children and decreased with age for all developmental domains, with 38 % of the children showing no improvement of cognitive developmental functioning. Almost all children (33/34) had significant deficits in adaptive behaviour. Children with very small deletions, covering only the SHANK3, ACR, and RABL2B genes, had a more favourable developmental phenotype., Conclusions: Cognitive, motor, and especially language development were significantly impaired in all children with PMS but also highly variable and unpredictable. In addition, deficits in adaptive behaviour further hampered their cognitive development. Therefore, cognitive and behavioural characteristics should be evaluated and followed in each child with PMS to adapt supportive and therapeutic strategies to individual needs. Further research evaluating the relationship between deletion characteristics and the developmental phenotype is warranted to improve counselling of parents.

Published

2016

95. De Novo Loss-of-Function Mutations in USP9X Cause a Female-Specific Recognizable Syndrome with Developmental Delay and Congenital Malformations.

Author

Reijnders MR, Zachariadis V, Latour B, Jolly L, Mancini GM, Pfundt R, Wu KM, van Ravenswaaij-Arts CM, Veenstra-Knol HE, Anderlid BM, Wood SA, Cheung SW, Barnicoat A, Probst F, Magoulas P, Brooks AS, Malmgren H, Harila-Saari A, Marcelis CM, Vreeburg M, Hobson E, Sutton VR, Stark Z, Vogt J, Cooper N, Lim JY, Price S, Lai AH, Domingo D, Reversade B, Gecz J, Gilissen C, Brunner HG, Kini U, Roepman R, Nordgren A, and Kleefstra T

Subjects

Adolescent, Base Sequence, Child, Child, Preschool, Choanal Atresia diagnosis, Choanal Atresia genetics, Developmental Disabilities diagnosis, Female, Genes, X-Linked, Genetic Testing, Humans, Intellectual Disability diagnosis, Molecular Sequence Data, Phenotype, Ubiquitin Thiolesterase metabolism, X Chromosome Inactivation, Young Adult, Developmental Disabilities genetics, Intellectual Disability genetics, Mutation, Ubiquitin Thiolesterase genetics

Abstract

Mutations in more than a hundred genes have been reported to cause X-linked recessive intellectual disability (ID) mainly in males. In contrast, the number of identified X-linked genes in which de novo mutations specifically cause ID in females is limited. Here, we report 17 females with de novo loss-of-function mutations in USP9X, encoding a highly conserved deubiquitinating enzyme. The females in our study have a specific phenotype that includes ID/developmental delay (DD), characteristic facial features, short stature, and distinct congenital malformations comprising choanal atresia, anal abnormalities, post-axial polydactyly, heart defects, hypomastia, cleft palate/bifid uvula, progressive scoliosis, and structural brain abnormalities. Four females from our cohort were identified by targeted genetic testing because their phenotype was suggestive for USP9X mutations. In several females, pigment changes along Blaschko lines and body asymmetry were observed, which is probably related to differential (escape from) X-inactivation between tissues. Expression studies on both mRNA and protein level in affected-female-derived fibroblasts showed significant reduction of USP9X level, confirming the loss-of-function effect of the identified mutations. Given that some features of affected females are also reported in known ciliopathy syndromes, we examined the role of USP9X in the primary cilium and found that endogenous USP9X localizes along the length of the ciliary axoneme, indicating that its loss of function could indeed disrupt cilium-regulated processes. Absence of dysregulated ciliary parameters in affected female-derived fibroblasts, however, points toward spatiotemporal specificity of ciliary USP9X (dys-)function., (Copyright © 2016 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2016

96. A novel homozygous insertion and review of published mutations in the NNT gene causing familial glucocorticoid deficiency (FGD).

Author

Jazayeri O, Liu X, van Diemen CC, Bakker-van Waarde WM, Sikkema-Raddatz B, Sinke RJ, Zhang J, and van Ravenswaaij-Arts CM

Subjects

Alleles, Child, Preschool, Comparative Genomic Hybridization, Consanguinity, Female, Humans, Infant, Infant, Newborn, Male, Mitochondrial Proteins chemistry, Mitochondrial Proteins genetics, NADP Transhydrogenase, AB-Specific chemistry, Pedigree, Polymorphism, Single Nucleotide, Adrenal Insufficiency diagnosis, Adrenal Insufficiency genetics, Homozygote, Mutagenesis, Insertional, Mutation, NADP Transhydrogenase, AB-Specific genetics

Abstract

Familial glucocorticoid deficiency (FGD) is an autosomal recessive disorder characterized by low levels of cortisol despite high adrenocorticotropin (ACTH) levels, due to the reduced ability of the adrenal cortex to produce cortisol in response to stimulation by ACTH. FGD is a heterogeneous disorder for which causal mutations have been identified in MC2R, MRAP, MCM4 and TXNRD2. Also mutations in STAR and CYP11A1 can sometimes present with a phenotype resembling FGD. Recently, it has been indicated that FGD can also be caused by mutations in NNT (nicotinamide nucleotide transhydrogenase). We identified a 6.67 Mb homozygous region harboring the NNT gene by SNP haplotyping in a 1-year old Dutch boy presenting with FGD, but without mutations in MC2R and MRAP. Exome-sequencing revealed a novel homozygous mutation (NM&#95;012343.3: c.1259dupG) in NNT that was predicted to be disease-causing. The mutation is located in exon 9 and creates a frameshift leading to a premature stop-codon (p.His421Serfs*4) that is known to result in FGD. Both parents were shown to be heterozygous carriers. We reviewed the literature for all the reported NNT mutations and their clinical presentation. The median age of disease onset in 23 reported patients, including the present patient, was 12 months (range 3 days-39 months). There was no difference in age of disease onset between truncating and non-truncating NNT mutations. Based on recent literature, we advise to monitor patients with FGD due to NNT mutations for possible combined mineralocorticoid insufficiency and extra-adrenal manifestations., (Copyright © 2015 Elsevier Masson SAS. All rights reserved.)

Published

2015

97. Clinical utility gene card for: CHARGE syndrome - update 2015.

Author

van Ravenswaaij-Arts CM, Blake K, Hoefsloot L, and Verloes A

Subjects

CHARGE Syndrome diagnosis, CHARGE Syndrome pathology, Humans, CHARGE Syndrome genetics, DNA Helicases genetics, DNA-Binding Proteins genetics, Genetic Predisposition to Disease, Genetic Testing

Published

2015

98. CHARGE syndrome: a review of the immunological aspects.

Author

Wong MT, Schölvinck EH, Lambeck AJ, and van Ravenswaaij-Arts CM

Subjects

CHARGE Syndrome genetics, CHARGE Syndrome pathology, DNA Helicases immunology, DNA-Binding Proteins immunology, DiGeorge Syndrome genetics, DiGeorge Syndrome pathology, Female, Haploinsufficiency immunology, Humans, Pregnancy, Signal Transduction genetics, Signal Transduction immunology, T-Lymphocytes pathology, CHARGE Syndrome immunology, DNA Helicases genetics, DNA-Binding Proteins genetics, DiGeorge Syndrome immunology, T-Lymphocytes immunology

Abstract

CHARGE syndrome is caused by a dominant variant in the CHD7 gene. Multiple organ systems can be affected because of haploinsufficiency of CHD7 during embryonic development. CHARGE syndrome shares many clinical features with the 22q11.2 deletion syndrome. Immunological abnormalities have been described, but are generally given little attention in studies on CHARGE syndrome. However, structured information on immunological abnormalities in CHARGE patients is necessary to develop optimal guidelines for diagnosis, treatment and follow-up in these patients. Here, we provide an overview of the current literature on immunological abnormalities in CHARGE syndrome. We also explore immunological abnormalities in comparable multiple congenital anomaly syndromes to identify common immunological phenotypes and genetic pathways that might regulate the immune system. Finally, we aim to identify gaps in our knowledge on the immunological aspects in CHARGE syndrome that need further study.

Published

2015

99. CHD7 mutations are not a major cause of atrioventricular septal and conotruncal heart defects.

Author

Corsten-Janssen N, du Marchie Sarvaas GJ, Kerstjens-Frederikse WS, Hoefsloot LH, van Beynum IM, Kapusta L, and van Ravenswaaij-Arts CM

Subjects

Female, Humans, Male, Point Mutation genetics, DNA Helicases genetics, DNA-Binding Proteins genetics, Heart Defects, Congenital genetics, Heart Septal Defects genetics, Phenotype

Abstract

Since 2004, CHD7 mutations have been a known cause of CHARGE (Coloboma, Heart defects, Atresia of choane, Retardation of growth and development, Genital hypoplasia, Ear anomalies) syndrome, but the full clinical spectrum of CHD7 mutations is only now gradually emerging. CHD7 mutations have been identified in patients who do not fulfill the clinical criteria for CHARGE syndrome and in patients with overlapping syndromes. Variable congenital heart defects occur in the majority of patients with CHD7 mutations, with an overrepresentation of atrioventricular septal defects and conotruncal heart defects. This prompted us to study CHD7 in 46 patients with these heart defects and one other feature of CHARGE syndrome. We identified two CHD7 variants that were inherited from a healthy parent (c.3778 + 17C > T, c.7294G > A), but no pathogenic CHD7 mutations. We conclude that CHD7 mutations are not a major cause of the atrioventricular septal defects and conotruncal heart defects, not even if one extra phenotypic feature of CHARGE syndrome is present. Therefore, CHD7 analysis should not be performed routinely in this group of patients. However, we do recommend adding CHD7 to massive parallel sequencing gene panels for diagnostic work in patients with syndromic heart defects., (© 2014 Wiley Periodicals, Inc.)

Published

2014

100. Definition of 5q11.2 microdeletion syndrome reveals overlap with CHARGE syndrome and 22q11 deletion syndrome phenotypes.

Author

Snijders Blok C, Corsten-Janssen N, FitzPatrick DR, Romano C, Fichera M, Vitello GA, Willemsen MH, Schoots J, Pfundt R, van Ravenswaaij-Arts CM, Hoefsloot L, and Kleefstra T

Subjects

Adolescent, Adult, Child, Child, Preschool, Chromosome Deletion, Chromosome Mapping, Chromosomes, Human, Pair 5, Comparative Genomic Hybridization, Diagnosis, Differential, Facies, Female, Genetic Association Studies, Humans, Infant, Male, Young Adult, 22q11 Deletion Syndrome diagnosis, 22q11 Deletion Syndrome genetics, CHARGE Syndrome diagnosis, CHARGE Syndrome genetics, Chromosome Disorders diagnosis, Chromosome Disorders genetics, Phenotype

Abstract

Microdeletions of the 5q11.2 region are rare; in literature only two patients with a deletion in this region have been reported so far. In this study, we describe four additional patients and further define this new 5q11.2 microdeletion syndrome. A comparison of the features observed in all six patients with overlapping 5q11.2 deletions showed a phenotypic spectrum that overlaps with CHARGE syndrome and 22q11.2 deletion syndrome including choanal atresia, developmental delay, heart defects, external ear abnormalities, and short stature. No colobomas or abnormalities of semicircular canals and olfactory nerves were reported. Two male patients had genital abnormalities. We estimated a 2.0 Mb (53.0-55.0 Mb) Shortest Region of Overlap (SRO) for the main clinical characteristics of the syndrome. This region contains nine genes and two non-coding microRNAs. In this region DHX29 serves as the candidate gene as it encodes an ATP-dependent RNA-helicase that is involved in the initiation of RNA translation. Screening a small cohort of 14 patients who presented the main features, however, did not reveal any pathogenic abnormalities of DHX29., (© 2014 Wiley Periodicals, Inc.)

Published

2014