OBJECTIVE: Our goal was to investigate whether a polymorphism in the insulin-like growth factor I promoter gene (IGF-I, wild-type, 192 base pairs) and in the insulin gene (INS) variable number of tandem repeat locus influence birth weight and weight gain in infancy. PATIENTS AND METHODS: We obtained genomic DNA from 768 children. Exclusion criteria were multiple births, gestational diabetes, maternal diabetes, gestational age <37 weeks, >42 weeks, or unclear, and any condition potentially influencing weight gain. SD scores were calculated and adjusted for gestational age and gender. A gain in SD scores for weight between birth and 1 year >0.67 SD scores was defined as accelerated weight gain. Genotyping was performed by fragment length analysis (IGF-I) and by fragment length analysis after using a restriction enzyme-based assay (INS variable number tandem repeat). RESULTS: Accelerated weight gain was present in 205 of 768 children. IGF-I and INS variable number tandem repeat genotype were not associated with birth weight. The IGF-I 192-base pair allele was less frequent in children with accelerated weight gain and was shown to reduce the risk for accelerated weight gain in a logistic regression model. CONCLUSION: The IGF-I 192-base pair allele may reduce the risk for rapid weight gain in early infancy.
OBJECTIVE: Our goal was to investigate whether a polymorphism in the insulin-like growth factor I promoter gene (IGF-I, wild-type, 192 base pairs) and in the insulin gene (INS) variable number of tandem repeat locus influence birth weight and weight gain in infancy. PATIENTS AND METHODS: We obtained genomic DNA from 768 children. Exclusion criteria were multiple births, gestational diabetes, maternal diabetes, gestational age <37 weeks, >42 weeks, or unclear, and any condition potentially influencing weight gain. SD scores were calculated and adjusted for gestational age and gender. A gain in SD scores for weight between birth and 1 year >0.67 SD scores was defined as accelerated weight gain. Genotyping was performed by fragment length analysis (IGF-I) and by fragment length analysis after using a restriction enzyme-based assay (INS variable number tandem repeat). RESULTS: Accelerated weight gain was present in 205 of 768 children. IGF-I and INS variable number tandem repeat genotype were not associated with birth weight. The IGF-I 192-base pair allele was less frequent in children with accelerated weight gain and was shown to reduce the risk for accelerated weight gain in a logistic regression model. CONCLUSION: The IGF-I 192-base pair allele may reduce the risk for rapid weight gain in early infancy.
Authors: Y Sterner; C Törn; H-S Lee; H Larsson; C Winkler; W McLeod; K Lynch; O Simell; A Ziegler; D Schatz; W Hagopian; M Rewers; J-X She; J P Krischer; B Akolkar; A Lernmark Journal: J Perinatol Date: 2011-04-28 Impact factor: 3.225
Authors: Clive J Petry; Pura Rayco-Solon; Anthony J C Fulford; John D H Stead; Dianne L Wingate; Ken K Ong; Giorgio Sirugo; Andrew M Prentice; David B Dunger Journal: Hum Genet Date: 2009-05-12 Impact factor: 4.132