1 Bell R, Bailey K, Cresswell T, et al. Trends in prevalence and outcomes of pregnancy in women with pre-existing type I and type II diabetes. BJOG 2008;115:445–52.
2 Dabelea D, Snell-Bergeon JK, Hartsfield CL, et al. Increasing prevalence of gestational diabetes mellitus (GDM) over time and by birth cohort: Kaiser Permanente of Colorado GDM Screening Program. Diabetes Care 2005;28:579–84.
3 NICE. NICE guideline 63: diabetes in pregnancy. Management of diabetes and its complications in pregnancy from the preconception to the postnatal period.
http:// www.nice.org.uk/guidance/CG63 (accessed 30 Jun 2014 2009).
4 Philipps LH, Santhakumaran S, Gale C, et al. The diabetic pregnancy and offspring BMI in childhood: a systematic review and meta-analysis. Diabetologia 2011;54:1957–66.
5 Aceti A, Santhakumaran S, Logan KM, et al. The diabetic pregnancy and offspring blood pressure in childhood: a systematic review and meta-analysis. Diabetologia 2012;55:3114–27.
6 Dabelea D, Pettitt DJ. Intrauterine diabetic environment confers risks for type 2 diabetes mellitus and obesity in the offspring, in addition to genetic susceptibility. J Pediatr Endocrinol Metab 2001;14:1085–91.
7 Silverman BL, Rizzo T, Green OC, et al. Long-term prospective evaluation of offspring of diabetic mothers. Diabetes 1991;40(Suppl 2):121–5.
8 Fetita LS, Sobngwi E, Serradas P, et al. Consequences of fetal exposure to maternal diabetes in offspring. J Clin Endocrinol Metab 2006;91:3718–24.
9 Bunt JC, Tataranni PA, Salbe AD. Intrauterine exposure to diabetes is a determinant of hemoglobin A1c and systolic blood pressure in Pima Indian Children. J Clin Endocrinol Metab 2005;90:3225–9.
10 Dabelea D, Hanson RL, Lindsay RS, et al. Intrauterine exposure to diabetes conveys risks for type 2 diabetes and obesity: a study of discordant sibships. Diabetes 2000;49:2208–11.
11 Lawlor DA, Lichtenstein P, Långström N. Association of maternal diabetes mellitus in pregnancy with offspring adiposity into early adulthood: sibling study in a prospective cohort of 280,866 men from 248,293 families. Circulation 2011;123:258–65.
12 Juonala M, Magnussen CG, Berenson GS, et al. Childhood adiposity, adult adiposity, and cardiovascular risk factors. N Engl J Med 2011;365:1876–85.
13 Falaschetti E, Hingorani AD, Jones A, et al. Adiposity and cardiovascular risk factors in a large contemporary population of pre-pubertal children. Eur Heart J 2010;31:3063–72.
14 De Cunto APG, Ronfani L, Travan L, et al. Can body mass index accurately predict adiposity in newborns? Arch Dis Child Fetal Neonatal Ed 2013;99:F238–9.
15 HAPO SCRG. Hyperglycemia and Adverse Pregnancy Outcome (HAPO) Study: associations with neonatal anthropometrics. Diabetes 2009;58:453–9.
16 Catalano PM, Thomas A, Huston-Presley L, et al. Increased fetal adiposity: a very sensitive marker of abnormal in utero development. Am J Obstet Gynecol 2003;189:1698–704.
17 Lingwood BE, Henry AM, d’Emden MC, et al. Determinants of body fat in infants of women with gestational diabetes mellitus differ with fetal sex. Diabetes Care 2011;34:2581–5.
18 Au CP, Raynes-Greenow CH, Turner RM, et al. Body composition is normal in term infants born to mothers with well-controlled gestational diabetes mellitus. Diabetes Care 2013;36:562–4.
19 Brumbaugh DE, Tearse P, Cree-Green M, et al. Intrahepatic fat is increased in the neonatal offspring of obese women with gestational diabetes. J Pediatr 2013;162:930–6.e1.
20 Lee W, Riggs T, Koo W, et al. The relationship of newborn adiposity to fetal growth outcome based on birth weight or the modified neonatal growth assessment score. J Matern Fetal Neonatal Med 2012;25:1933–40.
21 Zhao YL, Ma RM, Liang K, et al. [Effects of hyperglycaemia in pregnancy and relevant factors on neonatal body composition]. Zhonghua Yi Xue Za Zhi 2013;93:289–92.
22 Donovan LE, Cundy T. Does exposure to hyperglycaemia in utero increase the risk of obesity and diabetes in the offspring? A critical reappraisal. Diabet Med 2015;32:295–304.
23 PROSPERO. http://www.crd.york.ac.uk/PROSPERO/display_record.asp? ID=CRD42012003004
24 Poole C, Greenland S. Random-effects meta-analyses are not always conservative. Am J Epidemiol 1999;150:469–75.
25 Enzi G, Inelmen EM, Caretta F, et al. Development of adipose tissue in newborns of gestational-diabetic and insulin-dependent diabetic mothers. Diabetes 1980;29:100–4.
26 Schaefer-Graf UM, Meitzner K, Ortega-Senovilla H, et al. Differences in the implications of maternal lipids on fetal metabolism and growth between gestational diabetes mellitus and control pregnancies. Diabet Med 2011;28:1053–9.
27 Sletner L, Nakstad B, Yajnik CS, et al. Ethnic differences in neonatal body composition in a multi-ethnic population and the impact of parental factors: a population-based cohort study. PLoS ONE 2013;8:e73058.
28 Brunner S, Schmid D, Hüttinger K, et al. Maternal insulin resistance, triglycerides and cord blood insulin in relation to post-natal weight trajectories and body composition in the offspring up to 2 years. Diabet Med 2013;30: 1500–7.
29 Buhling KJ, Doll I, Siebert G, et al. Relationship between sonographically estimated fetal subcutaneous adipose tissue measurements and neonatal skinfold measurements. Ultrasound Obstet Gynecol 2012;39:558–62.
30 Krishnaveni GV, Hill JC, Leary SD, et al. Anthropometry, glucose tolerance, and insulin concentrations in Indian children: relationships to maternal glucose and insulin concentrations during pregnancy. Diabetes Care 2005;28:2919–25.
31 Aman J, Hansson U, Ostlund I, et al. Increased fat mass and cardiac septal hypertrophy in newborn infants of mothers with well-controlled diabetes during pregnancy. Neonatology 2011;100:147–54.
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