Clinical and Genetic Profile of Children With Short Stature Presenting to a Genetic Clinic in Northern India

Objective: To define the spectrum of genetic disorders in patients with short stature visiting the genetic out-patient department in a tertiary care hospital. Methods: A chart review was done for 455 individuals (10 months-16 yrs) with short stature, who were evaluated at the genetic clinic from 1 January, 2017 upto 31 October, 2018. 226 patients who needed detailed evaluation, the spectrum of genetic diagnosis is presented. Results: Proportionate short stature was identified in 63% individuals (n=142) of which 93 (65%) were recognizable syndromes such as Turner syndrome, and William syndrome, and RASopathies. In clinically undefined syndromes (39, 27%), a diagnosis could be made by karyotype (n=3/10), chromosomal microarray (6/12) and exome sequencing (1/6). In the 84 children in the disproportionate short stature group (37%), lysosomal storage disorders (LSDs) (45%, n=38) were identified by enzyme analysis in 86.8% and skeletal dysplasias (44%, n=37) identified by skeletal survey in 89% cases. Conclusions: In undefined syndromic short stature, chromosomal microarray may be the first investigation of choice if phenotyping is not suggestive of a specific genetic syndrome. Exome sequencing can be useful in identifying newer genes among idiopathic and familial short stature cohorts.

A familial deletion 4q syndrome: An outcome of a paracentric inversion.

Chromosome inversions are intra-chromosomal rearrangements formed when the chromosome breaks occur at two places, and in the process of repair the intervening segments are joined in an inverted or opposite manner. Inversions themselves do not appear to cause clinical anomalies, if balanced. Abnormal phenotypes can occur due to gene disruption at the point of breakage and reunion or due to duplication/deficiency recombinants formed during crossover at meiosis. We report a case with familial deletion 4q syndrome in a 1-year-old female child with dysmorphism and congenital abnormalities. The deletion was an outcome of a paracentric inversion 4q31.2q35.2. The deletion was confirmed by fluorescence in situ hybridization using telomeric DNA probes for chromosome No. 4. An attempt was made to correlate the genotype with the phenotype. The father had the same rearrangement with a milder phenotype. The recurrence risk in such cases is high.

Genetic counseling and prenatal diagnosis in India--experience at Sir Ganga Ram Hospital.

The experiences in genetic counseling and prenatal diagnosis at a tertiary genetic center in India are described. Of 3500 subjects provided genetic counseling 28.7% were for prenatal diagnosis, 13.7% for mental retardation +/- malformations, 11.5% for thalassemia, hemophilia and leukemia, 8.5% for neural tube defects and other malformations, and 8% for muscle dystrophy and spinal muscle atrophy. Chromosomal studies in blood (n = 5459) were for recurrent abortions (57.8%), delayed milestones (14.7%), malformations (11%), and infertility and amenorrhea (10.2%). Indications for amniotic fluid studies (n = 835) were advanced maternal age (35.7%), high risk result on triple test (21.3%), previous child with trisomy 21 (21.3%) and abnormalities seen on ultrasound (11.1%). Molecular studies were mostly for thalassemia (843, 24.3%), Duchenne muscular dystrophy (443, 12.5%), fragile X syndrome (367, 10.3%), spinal muscular atrophy (315, 8.9%), thrombophilia profile (233, 6.6%), triplet repeat disorders-spinocerebellar ataxias, Huntington disease and Friedreich ataxia-162 (4.6%), cystic fibrosis 140 (3.9%) and mitochondrial disorders 101 (2.9%). Other disorders for which molecular diagnosis was done were intrauterine infections by PCR on the amniotic fluid, Prader Willi/Angelman syndromes, hemophilia, achondroplasia, congenital adrenal hyperplasia, and Apert syndrome etc. In biochemical studies triple marker tests were the most common (3239), followed by aminoacid chromatography (774). Among neurolipidosis metachromatic leukodystrophy was the commonest, followed by Krabbe's disease, Tay Sach disease and Gaucher disease. Of the mucopolysacharidoses Hurler syndrome was the commonest, followed by Hunter syndrome. These data are compared with previous studies and a change towards increased prenatal diagnostic tests is observed. The commonest indication for amniocentesis has changed to advanced maternal age. CONCLUSION: Advanced molecular, cytogenetic and biochemical techniques have been a useful addition for genetic counseling and prenatal diagnosis in India.