Subscribe to RSS
Download PDF
DOI: 10.1055/s-0035-1559795
The Association between Bone Age Advancement and Insulin Resistance in Prepubertal Obese Children
Authors
Publication History
received 10 February 2015
first decision 10 July 2015
accepted 19 August 2015
Publication Date:
24 November 2015 (online)
Abstract
Objective: Obesity is associated with bone age (BA) advancement, but the underlying mechanisms remain unclear. The objective of this study was to investigate the association between BA maturation and insulin levels in obese children.
Methods: In this cross-sectional study of 93 prepubertal obese children, anthropometric data and hormonal values were measured. Subjects were divided into 2 groups based on the difference between BA and chronological age (CA) (noted as BA-CA).
Results: The study population included 39 (41.9%) males and 54 (58.1%) females with a mean age of 7.4±1.5 years. The advanced bone age group defined as BA-CA>1 year (n=44) had significantly higher HOMA-IR and fasting insulin levels, and lower quantitative insulin sensitivity check index (QUICKI). BA-CA was significantly correlated with fasting insulin (r=0.255, P=0.014), HOMA-IR (r=0.230, P=0.027), and QUICKI (r=− 0.301, P=0.003). Also, height SDS was significantly associated with ΔBA-CA (r=0.417, P<0.001). In the multiple regression analysis, HOMA-IR was identified as a significant independent predictor of BA-CA.
Conclusion: Bone age is more advanced in obese children with hyperinsulinemia and insulin resistance. These findings suggest that insulin may affect skeletal maturation.
-
References
- 1 Cox LA. The biology of bone maturation and ageing. Acta paediatrica (Oslo, Norway: 1992) Supplement 1997; 423: 107-108
- 2 Russell DL, Keil MF, Bonat SH et al. The relation between skeletal maturation and adiposity in African American and Caucasian children. The Journal of pediatrics 2001; 139: 844-848
- 3 Pinhas-Hamiel O, Benary D, Mazor-Aronovich K et al. Advanced bone age and hyperinsulinemia in overweight and obese children. Endocrine practice: official journal of the American College of Endocrinology and the American Association of Clinical Endocrinologists 2014; 20: 62-67
- 4 Sopher AB, Jean AM, Zwany SK et al. Bone age advancement in prepubertal children with obesity and premature adrenarche: possible potentiating factors. Obesity (Silver Spring, Md) 2011; 19: 1259-1264
- 5 Klein KO, Larmore KA, de Lancey E et al. Effect of obesity on estradiol level, and its relationship to leptin, bone maturation, and bone mineral density in children. The Journal of clinical endocrinology and metabolism 1998; 83: 3469-3475
- 6 Grumbach MM. Estrogen, bone, growth and sex: a sea change in conventional wisdom. Journal of pediatric endocrinology & metabolism: JPEM 2000; 13 (Suppl. 06) 1439-1455
- 7 Wu S, Aguilar AL, Ostrow V et al. Insulin resistance secondary to a high-fat diet stimulates longitudinal bone growth and growth plate chondrogenesis in mice. Endocrinology 2011; 152: 468-475
- 8 Moon JS, Lee SY, Nam CM et al. 2007; Korean National Growth Charts: review of developmental process and an outlook. Korean J Pediatr 2008; 51: 1-25
- 9 Marshall WA, Tanner JM. Variations in the pattern of pubertal changes in boys. Arch Dis Child 1970; 45: 13-23
- 10 Marshall WA, Tanner JM. Variations in pattern of pubertal changes in girls. Arch Dis Child 1969; 44: 291-303
- 11 Greulich WW, Pyle SI. Radiologic atlas of skeletal development of the hand and wrist. 2nd (ed.). Standford: Stanford University Press; 1959
- 12 Song AK, Kim HJ, Suk HJ et al. Serum IGF-1 and IGFBP-3 in 919 Healthy Korean Children and Adolescents: Normal Values and Correlations with Age, Sex,Height, Body Mass Index and Bone Age. Journal of Korean Soceity of Pediatic Endocrinology 2005; 10: 35-41
- 13 Ahmed ML, Ong KK, Dunger DB. Childhood obesity and the timing of puberty. Trends in endocrinology and metabolism: TEM 2009; 20: 237-242
- 14 Cali AM, Caprio S. Obesity in children and adolescents. The Journal of clinical endocrinology and metabolism 2008; 93: S31-S36
- 15 Biro FM, Khoury P, Morrison JA. Influence of obesity on timing of puberty. Int J Androl 2006; 29: 272-277 discussion 286-290
- 16 Johnson W, Stovitz SD, Choh AC et al. Patterns of linear growth and skeletal maturation from birth to 18 years of age in overweight young adults. Int J Obes (Lond) 2012; 36: 535-541
- 17 l’Allemand D, Schmidt S, Rousson V et al. Associations between body mass, leptin, IGF-I and circulating adrenal androgens in children with obesity and premature adrenarche. European journal of endocrinology/European Federation of Endocrine Societies 2002; 146: 537-543
- 18 Stutte S, Woelfle J, Born M et al. Bone maturation in extremely low birth weight infants in relation to birth weight and endocrine parameters. European journal of pediatrics 2009; 168: 1497-1503
- 19 Corvalan C, Uauy R, Mericq V. Obesity is positively associated with dehydroepiandrosterone sulfate concentrations at 7 y in Chilean children of normal birth weight. The American journal of clinical nutrition 2013; 97: 318-325
- 20 Lodish MB, Gourgari E, Sinaii N et al. Skeletal maturation in children with Cushing syndrome is not consistently delayed: the role of corticotropin, obesity, and steroid hormones, and the effect of surgical cure. The Journal of pediatrics 2014; 164: 801-806
- 21 Reinehr T, de Sousa G, Wabitsch M. Relationships of IGF-I and andrrogens to skeletal maturation in obese children and adolescents. Journal of pediatric endocrinology & metabolism: JPEM 2006; 19: 1133-1140
- 22 Bidlingmaier M. Pitfalls of insulin-like growth factor I assays. Hormone research 2009; 71 (Suppl. 01) 30-33
- 23 Shalitin S, Abrahami M, Lilos P et al. Insulin resistance and impaired glucose tolerance in obese children and adolescents referred to a tertiary-care center in Israel. Int J Obes (Lond) 2005; 29: 571-578
- 24 Tresaco B, Bueno G, Moreno LA et al. Insulin resistance and impaired glucose tolerance in obese children and adolescents. J Physiol Biochem 2003; 59: 217-223
- 25 Maor G, Silbermann M, von der Mark K et al. Insulin enhances the growth of cartilage in organ and tissue cultures of mouse neonatal mandibular condyle. Calcified tissue international 1993; 52: 291-299
- 26 Phornphutkul C, Wu KY, Gruppuso PA. The role of insulin in chondrogenesis. Molecular and cellular endocrinology 2006; 249: 107-115
- 27 Lazar L, Lebenthal Y, Shalitin S et al. Natural history of idiopathic advanced bone age diagnosed in childhood: pattern of growth and puberty. Hormone research in paediatrics 2011; 75: 49-55