How to cite this article: Tatton-Brown K, Pilz DT, Örstavik KH, Patton M, Barber JCK, Collinson MN, Maloney VK, Huang S, Crolla JA, Marks K, Ormerod E, Thompson P, Nawaz Z, Lese-Martin C, Tomkins S, Waits P, Rahman N, McEntagart M. 2009. 15q overgrowth syndrome: A newly recognized phenotype associated with overgrowth, learning difficulties, characteristic facial appearance, renal anomalies and increased dosage of distal chromosome 15q. Am J Med Genet Part A 149A:147–154.
15q overgrowth syndrome: A newly recognized phenotype associated with overgrowth, learning difficulties, characteristic facial appearance, renal anomalies and increased dosage of distal chromosome 15q†
Article first published online: 9 JAN 2009
Copyright © 2009 Wiley-Liss, Inc.
American Journal of Medical Genetics Part A
Volume 149A, Issue 2, pages 147–154, February 2009
How to Cite
Tatton-Brown, K., Pilz, D. T., Örstavik, K. H., Patton, M., Barber, J. C.K., Collinson, M. N., Maloney, V. K., Huang, S., Crolla, J. A., Marks, K., Ormerod, E., Thompson, P., Nawaz, Z., Lese-Martin, C., Tomkins, S., Waits, P., Rahman, N. and McEntagart, M. (2009), 15q overgrowth syndrome: A newly recognized phenotype associated with overgrowth, learning difficulties, characteristic facial appearance, renal anomalies and increased dosage of distal chromosome 15q. Am. J. Med. Genet., 149A: 147–154. doi: 10.1002/ajmg.a.32534
- Issue published online: 22 JAN 2009
- Article first published online: 9 JAN 2009
- Manuscript Accepted: 21 JUL 2008
- Manuscript Received: 21 DEC 2007
- trisomy 15q;
- tetrasomy 15q;
- renal anomalies
Trisomy and tetrasomy of distal chromosome 15q have rarely been reported. Although most of the described patients have some learning difficulties and are overgrown, the phenotype associated with distal trisomy/tetrasomy 15q is uncertain due to the small numbers of reported cases and the common co-occurrence of additional chromosome deletions in many patients with trisomy 15q. We present five individuals with overgrowth, learning difficulties and increased dosage of distal 15q. Partial trisomy 15q was identified in four of these cases. Two were generated through recombination of a parental pericentric inversion and two were generated through malsegregation of a maternal balanced 14;15 reciprocal translocation. In all four cases the trisomy can be considered “pure” as the 14p and 15p monosomies will exert no phenotypic effect. Partial tetrasomy 15q, as the result of an analphoid supernumerary chromosome derived from an inverted duplication of distal 15q, was identified in the fifth patient. In addition to the overgrowth and learning difficulties, all five had a characteristic facial appearance and three had renal anomalies. The gestalt consists of a long, thin face with a prominent chin and nose. Renal anomalies included renal agenesis, horseshoe kidney, and hydronephrosis. We provide further support for a distinct “15q overgrowth syndrome” caused by either trisomy or tetrasomy resulting in increased dosage of distal 15q. In addition we propose that renal anomalies and a distinctive facial appearance be considered major features of this condition. © 2009 Wiley-Liss, Inc.