一名患有新发16p13.3间质性缺失的儿童出现双侧桡尺骨融合及椎体异常。

Tam Allison, Lee Kit Shan, Lee Sansan, Burkhalter William, Pascua Lucio U, Slavin Thomas P

University of Hawaii, John A. Burns School of Medicine, Honolulu, HI 96813, USA ; Hawaii Community Genetics, Ala Moana Building, 1441 Kapiolani Blvd, Suite 1800, Honolulu, HI 96814, USA.

Case Rep Genet. 2013;2013:149085. doi: 10.1155/2013/149085. Epub 2013 Jul 1.

We describe an 8-year-old boy with developmental delay, clinical bilateral radial ulnar synostosis, Klippel-Feil anomaly, and other vertebral deformities who was found to have a de novo deletion of 114.5kb at 16p13.3. The deletion contains five genes and three miRNAs. The genes are E4F1, DNASE1L2, ECI1, RNPS1, and ABCA3; miRNAs are MIR3677, MIR940, and MIR4717. The specific deletion has never been previously reported. We describe the phenotype of the boy and review the genes in the deleted region. None of the regulatory elements have any known linkage to skeletal formation and/or maintenance. We believe this deletion is causative given that it was de novo and that this patient cannot be easily explained as having any other specific recognizable pattern of human malformation.

我们描述了一名8岁男孩，他有发育迟缓、临床双侧桡尺骨融合、颈椎融合畸形及其他椎体畸形，被发现16p13.3处有一个114.5kb的新生缺失。该缺失包含五个基因和三个微小RNA。这些基因是E4F1、DNASE1L2、ECI1、RNPS1和ABCA3；微小RNA是MIR3677、MIR940和MIR4717。此前从未报道过这种特定的缺失。我们描述了该男孩的表型，并回顾了缺失区域的基因。这些调控元件中没有任何一个与骨骼形成和/或维持有已知的联系。鉴于此缺失是新生的，且该患者无法轻易解释为患有任何其他特定可识别的人类畸形模式，我们认为此缺失具有致病性。