Short stature Code R-144
- Description
- Number Genes
- Prevalence
- Indications and clinical utility
- Test performed and limitations
- Other Specialities
Linear growth during childhood is a process regulated and influenced by various factors such as prenatal, nutritional, hormonal, environmental or genetic. Linear growth with a standard deviation score (SDS) of height < -2 for the respective age falls under the condition of short stature. In the vast majority of cases of short stature, the child appears healthy but shows a lower linear growth rate, which we often refer to as 'idiopathic short stature', thus emphasising the unknown aetiology, or 'isolated short stature', which emphasises the specificity of the presented symptom.
However, there are syndromes that present with short stature, such as skeletal dysplasia, ciliopathies, rasopathies, Leri-Weill syndrome, metabolic conditions (mucopolysaccharidosis), Kabuki syndrome, Prader-Willi, DiGeorge, etc., which make it necessary, even in differential diagnosis, to apply a multigenic panel that takes into account the most common, albeit rare, causes of short stature.
421 genes
Not known
Multigenic panel aimed at the molecular diagnosis of idiopathic and syndromic short stature. Genes associated with defects in the paracrine signalling pathway, defects in cartilage and extracellular matrix, defects in the GH-IGF axis, skeletal malformations, defects in DNA repair, Noonan syndrome and related rasopathies, Kabuki syndrome, Smith-Lemli-Opitz syndrome, Silver Russell syndrome associated with the CDKN1C gene, Cornelia de Lange syndrome, Rubinstein-Taybi syndrome, SHORT syndrome, Leri-Weill syndrome are considered.
Method: NGS sequencing, determination of SNVs (Single Nucleotide Variants), small insertions and deletions and CNVs (Copy Number Variants).
Limits: The test is unable to determine the presence of underrepresented somatic events, balanced chromosomal rearrangements, nucleotide expansion events of repeat regions, CNVs <3 contiguous exons. <3 esoni contigui.
Some genes may have low coverage areas, where necessary or upon specific request, within the limits of methodological limitations, sequencing can be completed with alternative methods (Sanger). Some genes may be duplicated in the genome (pseudogenes), which may invalidate the analysis.