Good response to long-term therapy with growth hormone in a patient with 9p trisomy syndrome: A case report and review of the literature

A de novo chromosome 9p duplication in a female child with short stature and developmental delay

Chromosome 9p duplication, also known as a partial trisomy 9p, is a rare chromosome abnormality due to a duplication of the partial short arm of chromosome 9. More than 200 cases are reported in the literature. Major clinical findings include short stature, developmental delay, intellectual disability, and characteristic facial dysmorphic features. The most common origin of this syndrome is malsegregation of a parental reciprocal translocation. Only about 25 cases are reported as de novo in the literature, the rest being inherited from asymptomatic balanced carrier parents. We report an additional new case of de novo partial trisomy 9p in an 8-year-old girl, and describe her clinical manifestations and diagnostic testing results.

De Novo Duplication of Chromosome 9p in a Female Infant: Phenotype and Genotype Correlation

Trisomy 9p syndrome is the fourth most frequent chromosome aberration seen in infants. Duplication of the critical region 9p22p24 leads to mental retardation, psychomotor delay, and craniofacial and digital anomalies. We report a 2-year-old Ecuadorian girl with Trisomy 9p syndrome. Although her phenotype shares characteristics of Noonan syndrome, Giemsa trypsin banding technique shows there is an extra chromosomal segment on chromosome 14, and array analysis shows that it belongs to a duplication of 38 Mb of 9p13.1p24.3. Fluorescence in situ hybridization analysis detected three signals from 9p chromosome. The duplication is de novo, being another unique case of the few reported in the literature.

Recurrent Copy Number Variants Associated with Syndromic Short Stature of Unknown Cause

BACKGROUND/AIMS

Genetic imbalances are responsible for many cases of short stature of unknown etiology. This study aims to identify recurrent pathogenic copy number variants (CNVs) in patients with syndromic short stature of unknown cause.

METHODS

We selected 229 children with short stature and dysmorphic features, developmental delay, and/or intellectual disability, but without a recognized syndrome. All patients were evaluated by chromosomal microarray (array-based comparative genomic hybridization/single nucleotide polymorphism array). Additionally, we searched databases and previous studies to recover recurrent pathogenic CNVs associated with short stature.

RESULTS

We identified 32 pathogenic/probably pathogenic CNVs in 229 patients. By reviewing the literature, we selected 4 previous studies which evaluated CNVs in cohorts of patients with short stature. Taken together, there were 671 patients with short stature of unknown cause evaluated by chromosomal microarray. Pathogenic/probably pathogenic CNVs were identified in 87 patients (13%). Seven recurrent CNVs, 22q11.21, 15q26, 1p36.33, Xp22.33, 17p13.3, 1q21.1, 2q24.2, were observed. They are responsible for about 40% of all pathogenic/probably pathogenic genomic imbalances found in short stature patients of unknown cause.

CONCLUSION

CNVs seem to play a significant role in patients with short stature. Chromosomal microarray should be used as a diagnostic tool for evaluation of growth disorders, especially for syndromic short stature of unknown cause.