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ABSTRACT: The Goldenhar anomaly (GA) is a heterogeneous field defect of uncertain cause and wide variability of expression, characterized by facial phenotypes, usually asymmetric and unilateral, accompanied by various combinations and gradations of cardiac, skeletal, renal, and central nervous system defects. We report the pathologic findings in a 5-month-old boy with GA, tracheal stenosis, and left unilateral sclerocornea. To the best of our knowledge this is the first description of sclerocornea in a patient with GA.
Fetal and pediatric pathology 01/2011; 30(6):397-404. · 0.36 Impact Factor
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ABSTRACT: Legius syndrome, caused by SPRED1 mutations, has phenotypic overlap with neurofibromatosis type 1 (NF1) without tumorigenic manifestations. Patients fulfilling the National Institutes of Health (NIH) diagnostic criteria for NF1 were enrolled at the University of Utah NF Clinic, and SPRED1 mutation analysis was performed to identify the frequency of Legius syndrome within an NF1 clinic population. SPRED1 sequencing was performed on 151 individuals with the clinical diagnosis of NF1, and 2 individuals (1.3%) were found to have novel SPRED1 mutations, p.R18X and p.Q194X. The phenotypes for the 2 individuals with SPRED1 mutations included altered pigmentation without tumorigenesis. A specific SPRED1 haplotype allele was identified in 27 individuals. The frequency of SPRED1 mutations in patients meeting diagnostic criteria for NF1 in a hospital-based clinic is 1% to 2%. The likelihood an individual is harboring a SPRED1 mutation increases with age if multiple, nonpigmentary NF1 findings are absent. Legius syndrome patients may benefit from altered medical surveillance.
Journal of child neurology 02/2010; 25(10):1203-9. · 1.59 Impact Factor
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Steven B Bleyl,
Janice L B Byrne,
Sarah T South, David C Dries,
David A Stevenson,
Alan F Rope,
Angela M Vianna-Morgante,
Gary C Schoenwolf,
Jane D Kivlin,
Arthur Brothman,
John C Carey
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ABSTRACT: We report on a mother and son affected with an unusual skeletal dysplasia and anterior segment eye abnormalities. Their skeletal phenotype overlaps with the SHOX-related skeletal dysplasias and is intermediate between Leri-Weill dyschondrosteosis (LWD) and Langer Mesomelic dysplasia (LMD). The mother has bilateral Peters anomaly of the eye and was reported as having a new syndrome; the son had severe bilateral sclerocornea. Chromosome analysis showed that the mother has a pericentric inversion of the X chromosome [46,X,inv(X)(p22.3q27)] and the son, a resultant recombinant X chromosome [46,Y,rec(X)dup(Xq)inv(X)(p22.3q27)]. The observed skeletal and ophthalmologic abnormalities in both patients were similar in severity. The additional features of developmental delay, growth retardation, agenesis of the corpus callosum, cryptorchidism and hypoplastic scrotum in the son are consistent with Xq28 duplication. Analysis of the son's recombinant X chromosome showed that the Xp22.33 breakpoint lies 30-68 kb 5' of the SHOX gene. This finding suggests that the skeletal dysplasia in both mother and son is allelic with LWD and LMD and results from a novel misexpression of SHOX. Analysis of the Xq27.1 breakpoint localized it to a 90 kb interval 3' of the SOX3 gene, supporting a novel role of SOX3 misexpression in the development of Peters anomaly of the eye.
American Journal of Medical Genetics Part A 01/2008; 143A(23):2785-95. · 2.39 Impact Factor
