Endocrinopathies in adolescents with thalassaemia major receiving oral iron chelation therapy.

BACKGROUND: Endocrinopathies are common in patients with thalassaemia major (TM) despite parenteral iron chelation therapy with deferoxamine. There are only a few studies on the efficacy of oral deferiprone in preventing endocrine dysfunction. AIM: To determine the growth and endocrine complications in children with TM receiving oral iron chelation with deferiprone. METHODS: All adolescents with TM receiving regular blood transfusion and deferiprone were evaluated prospectively for growth and pubertal status over a 1-year period. Tests for endocrine function included oral glucose tolerance test, calcium, phosphate, alkaline phosphatase, parathyroid hormone and thyroid profile and, in those with delayed/arrested puberty, sex steroids and gonadotropins. Clonidine-stimulated growth hormone (GH) was measured in patients with height ≤-3 SD. RESULTS: 89 patients [51 males, 38 females, mean (SD) age 13·6 (2·5) years] were evaluated. Mean (SD) pre-transfusion haemoglobin was 9·2 (1·1) g/dl and the mean (SD) age of starting deferiprone was 5·1 (2·4) years. Mean (SD) ferritin was 9159 (3312) pmol/L (normal <2247). 49 (55%) subjects were of short stature and 25 (27%) had a height Z-score ≤ -3. GH testing was performed in 19 patients, of whom 17 had peak GH values <10 µg/L. Delayed puberty and/or hypogonadism was present in 54·1% patients at or beyond the age of normal puberty. Impaired glucose tolerance/diabetes mellitus, hypoparathyroidism and primary hypothyroidism (subclinical) were present in 13·0%, 10·1% and 8·9%, respectively. Overall, 44 (49·4%) adolescents had at least one endocrinopathy. CONCLUSION: Adolescents with TM on oral iron chelation therapy with deferiprone experienced a high prevalence of growth faltering and endocrinopathies which was comparable to that previously reported with deferoxamine. A combination of deferoxamine and deferiprone may be necessary to prevent growth and endocrine problems.

Urinary organic acids quantitated in a healthy north Indian pediatric population.

Human urine gives evidence of the metabolism in the body and contains numerous organic acids and other compounds at a variety of concentration. The concentration of organic acids in urine varies from population to population due to genotype, food habits and other epigenetic and environmental influences. Knowledge of the reference values for urinary organic acids in a healthy pediatric population is very important for critical evaluation. This study was designed to quantify 16 organic acids in a healthy north Indian pediatric population. Early morning urine samples from healthy pediatric subjects of age 1 day to 16 years who did not have symptoms of any disease were analyzed for organic acid content. The children were not on any supplemental vitamins or drugs and were on a free and unrestricted diet. The creatinine concentration of each sample was determined before organic acid analysis. Organic acids were extracted from urine with ethyl acetate, extracted residue was air dried, converted into trimethylsilyl derivatives and analysed by gas chromatography mass spectrometry. Here we reported the age wise mean values and standard deviations for each compound, adjusted for creatinine content (mmol/mol of creatinine). We found the concentration of most of the metabolites are higher in our population in comparison to other populations. Such data may help to provide a basis for diagnosing metabolic abnormalities in patients in a specific ethnicity.

Establishing National Neonatal Perinatal Database and birth defects registry network - need of the hour!

Early detection and prevention of birth defects is necessary to further reduce neonatal morbidity and mortality. A birth defect registry or surveillance system is necessary to assess the exact magnitude, profile and modifiable risk factors for birth defects. We review the existing efforts and suggest possible options for addressing this important issue. Connecting birth defects registry with the pre-existing programs such as National Neonatal Perinatal Database could be one of the option.

Evaluation of C677T polymorphism of the methylenetetra hydrofolate reductase gene and its association with levels of serum homocysteine, folate, and vitamin B12 as maternal risk factors for Down syndrome.

AIMS AND OBJECTIVE: Evaluation of C677T polymorphisms of the methylenetetra hydrofolate reductase (MTHFR) gene and its association with level of serum homocysteine, folate, and vitamin B12 as possible maternal risk factors for Down syndrome. DESIGN: This was a case-control study. MATERIAL AND METHODS: Fifty-two mothers (mean age 27.6 years) with babies having free trisomy 21 of North Indian ethnicity and 52 control nonlactating mothers (mean age 24.9 years) of same ethnicity attending services of genetic lab for bloodletting for other causes were enrolled after informed written consent. Fasting blood was collected and was used for determination of plasma homocysteine, vitamin B12, and folate (serum and RBC), and for PCR amplification of the MTHFR gene. RESULTS: The prevalence of MTHFR C677T polymorphism in north Indian mothers of babies with trisomy 21 Down syndrome was 15.38% compared to 5.88 % in controls. The difference between two groups was not statistically significant (P = 0.124). Low serum folate was demonstrated in 34.62% of cases vs. 11.54% in controls, which was significant (P = 0.005). Low RBC folate was found in 30.7% of cases versus 11.53% in controls, which was not significant (P = 0.059), when analyzed independently. But on multiple regression analysis the difference was statistically significant. Low serum vitamin B12 was found in 42.31% of cases versus 34.62% in controls, which was not significant (P = 0.118). The mean serum homocysteine in cases was 10.35 ± 0.68 while controls were 9.02 ± 0.535. CONCLUSION: Serum levels of folate were low in cases. The RBC folate levels were comparable in both groups. However the combined serum folate and RBC folate were low in cases compared to control groups. Homocysteine levels in our study were higher in Down syndrome mothers compared to controls; however high-serum level of Homocysteine had no association with MTHFR polymorphism. No association of serum vitamin B12 with MTHFR polymorphism in occurrence of Down syndrome births was found. Peri- or preconceptional folate supplementation may therefore lead to a decline in DS births, if supported by larger studies.