Screening of rural children in West Bengal for Fragile-X syndrome.

Background & objectives: Screening for Fragile X syndrome (FRAXA), the most common genetic cause for mental retardation (MR), has mostly been carried out among MR patients. The present study was conducted to find out prevalence of FRAXA amongst children residing in the rural areas of West Bengal. Methods: Demographic details including age, sex, nutritional status as well as birth, medical, and developmental histories, were collected amongst rural children (n=38,803) of West Bengal, India, over three years (2004-2007). Based on the records of scholastic backwardness, 179 children were short-listed and examined by a team of experts comprising of child psychiatrist, clinical psychologist, paediatrician and special educator. Blood samples were collected and molecular and cytogenetic studies were performed for identification of CGG repeats and determination of FMR1 gene promoter methylation. Results: Of the selected 179 children, six were diagnosed as Down syndrome, one as cerebral palsy and 140 as non-syndromic MR. These 140 children with MR were grouped as mild (56), moderate (60), and severely (4) retarded based on IQ; children <5 yr were grouped as developmental delay (20). FRAXA was not detected in any of these children (frequency being 0% with 0-.02% confidence interval). Prevalence of MR was found to be low (about 4/1000 children). Down syndrome also had a lower frequency (0.15/1000 children). Interpretation & conclusion: The data obtained in the present study indicated that familial disorders like FRAXA were less frequent in the studied population.

Chromosomal abnormalities associated with mental retardation in female subjects.

Chromosomal abnormalities are thought to be the most common cause of mental retardation (MR). However, apart from a few selected types with typical aneuploidy, like Downs syndrome, Klinefelter syndrome, Turner syndrome, etc., the frequency of detectable chromosomal abnormalities in association with idiopathic MR is very low. In this study, we have investigated chromosomal abnormalities in female MR subjects (n = 150) by high-resolution GTG banding. Of them, 30 cases were diagnosed as Downs syndrome. Among the remaining (n = 120), chromosomal abnormalities/marked polymorphisms were detectable in only three MR cases (0.025).

Molecular aspects of Down syndrome.

Molecular aspects of Down syndrome (DS), a major genetic cause for mental retardation, commonly associated with trisomy 21 are discussed. Two different hypotheses have been speculated to better understand the disease. One believes that increased gene dosage contributes to the phenotypic abnormalities; the other correlates genetic imbalance with DS pathogenesis. To sustain these hypotheses, different murine models have been developed. Experimental models as well as sequencing of human chromosome 21 helped in speculating a few possible candidate genes for DS. However, the phenotypic changes involved with this neurological disorder vis-a-vis the enhanced number of genes, still remain unexplained. Improvement in screening pattern, model system, as well as better understanding of the disease etiology may help in developing efficacious therapeutic regimes for DS.