Purpose: Many studies have reported that patients with type 1 diabetes have reduced bone mineral density (BMD). We assessed bone status in prepubertal children with type 1 diabetes mellitus (type 1 DM) at initial diagnosis and investigated factors associated with BMD.
Methods: Prepubertal children (n=29) with newly diagnosed type 1 diabetes from 2006 to 2014 were included. Dual-energy X-ray absorptiometry measured regional and whole-body composition at initial diagnosis. BMD was compared with healthy controls matched for age, sex, and body mass index (BMI).
Results: The mean age of all subjects (16 boys and 13 girls) was 7.58±1.36 years (range, 4.8–11.3 years). Initial mean glycosylated hemoglobin (HbA 1c ) level was 12.2%±1.9%. The mean BMD z-scores of lumbar spine, femur neck, and total body were not significantly different between patients and controls. Three patients (10.3%) had low bone density (total body BMD standard deviation score [SDS] < -2.0). To identify determinants of lumbar spine BMD z-score, multivariate regression analysis was performed with stepwise variable selection of age, pubertal status, BMI SDS, insulin like growth factor-1, and HbA 1c . Only BMI SDS was significantly correlated with lumbar spine BMD z-score (β=0.395, P=0.023).
Conclusion: Prepubertal children with newly diagnosed type 1 DM had similar bone mass compared to healthy peers. However, patients with low BMI should be carefully monitored for bone density in type 1 DM.

1 Mastrandrea LD, "Young women with type 1 diabetes have lower bone mineral density that persists over time" 31 : 1729-1735, 2008

2 Marshall WA, "Variations in the pattern of pubertal changes in boys" 45 : 13-23, 1970

3 Williams KM, "Update on bone health in pediatric chronic disease" 45 : 433-441, 2016

4 Eisenbarth GS, "Update in type 1 diabetes" 92 : 2403-2407, 2007

5 Valerio G, "The lumbar bone mineral density is affected by long-term poor metabolic control in adolescents with type 1 diabetes mellitus" 58 : 266-272, 2002

6 Verhaeghe J, "The effects of systemic insulin, insulin-like growth factor-I and growth hormone on bone growth and turnover in spontaneously diabetic BB rats" 134 : 485-492, 1992

7 Song AK, "Serum IGF-I and IGFBP-3 in 919 healthy Korean children and adolescents: normal values and correlations with age, sex, height, body mass index and bone age" 10 : 35-41, 2005

8 Camurdan MO, "Role of hemoglobin A(1c), duration and puberty on bone mineral density in diabetic children" 49 : 645-651, 2007

9 Napoli N, "Mechanisms of diabetes mellitus-induced bone fragility" 13 : 208-219, 2017

10 Hough FS, "Mechanisms in endocrinology: mechanisms and evaluation of bone fragility in type 1 diabetes mellitus" 174 : R127-R138, 2016

11 Shaw NJ, "Management of osteoporosis in children" 159 (159): S33-S39, 2008

12 Leger J, "Lower bone mineral content in children with type 1 diabetes mellitus is linked to female sex, low insulin-like growth factor type I levels, and high insulin requirement" 91 : 3947-3953, 2006

13 Eller-Vainicher C, "Low bone mineral density and its predictors in type 1 diabetic patients evaluated by the classic statistics and artificial neural network analysis" 34 : 2186-2191, 2011

14 AboElAsrar MA, "Insulin-like growth factor-1 cytokines cross-talk in type 1 diabetes mellitus: relationship to microvascular complications and bone mineral density" 59 : 86-93, 2012

15 Bouillon R, "Influence of age, sex, and insulin on osteoblast function: osteoblast dysfunction in diabetes mellitus" 80 : 1194-1202, 1995

16 Zemel BS, "Height adjustment in assessing dual energy x-ray absorptiometry measurements of bone mass and density in children" 95 : 1265-1273, 2010

17 Neumann T, "Glycaemic control is positively associated with prevalent fractures but not with bone mineral density in patients with Type 1 diabetes" 28 : 872-875, 2011

18 Onder A, "Evaluation of bone mineral density in children with type 1 diabetes mellitus" 26 : 1077-1081, 2013

19 Weber DR, "Epidemiology of skeletal health in type 1 diabetes" 14 : 327-336, 2016

20 Vestergaard P, "Discrepancies in bone mineral density and fracture risk in patients with type 1 and type 2 diabetes: a meta-analysis" 18 : 427-444, 2007

21 Bouillon R, "Diabetic bone disease" 49 : 155-160, 1991

22 Gunczler P, "Decreased bone mineral density and bone formation markers shortly after diagnosis of clinical type 1 diabetes mellitus" 14 : 525-528, 2001

23 Fowlkes JL, "Contributions of the insulin/insulin-like growth factor-1 axis to diabetic osteopathy" 1 (1): 2011

24 Botolin S, "Chronic hyperglycemia modulates osteoblast gene expression through osmotic and nonosmotic pathways" 99 : 411-424, 2006

25 Mosso C, "Bone mineral density in young Chilean patients with type 1 diabetes mellitus" 29 : 731-736, 2016

26 Lopez-Ibarra PJ, "Bone mineral density at time of clinical diagnosis of adult-onset type 1 diabetes mellitus" 7 : 346-351, 2001

27 Karaguzel G, "Bone mineral density and alterations of bone metabolism in children and adolescents with type 1 diabetes mellitus" 19 : 805-814, 2006

28 Lim JS, "Bone mineral density according to age, bone age, and pubertal stages in korean children and adolescents" 13 : 68-76, 2010

29 Moyer-Mileur LJ, "Bone mineral acquisition in adolescents with type 1 diabetes" 145 : 662-669, 2004

30 Zhukouskaya VV, "Bone health in type 1 diabetes: focus on evaluation and treatment in clinical practice" 38 : 941-950, 2015

31 Bianchi ML, "Bone health in children and adolescents with chronic diseases that may affect the skeleton: the 2013 ISCD Pediatric Official Positions" 17 : 281-294, 2014

32 Bachrach LK, "Bone densitometry in children and adolescents" 138 (138): 2016

33 Pan H, "Association between bone mineral density and type 1 diabetes mellitus: a metaanalysis of cross-sectional studies" 30 : 531-542, 2014

34 문진수, "2007 한국 소아 청소년 성장도표 : 개발 과정과 전망" 대한소아과학회 51 (51): 1-25, 2008