Adriëtte Oostvogels

1 27 General introduction 104. Hof M.H., Vrijkotte T.G., de Hoog M.L., van Eijsden M., Zwinderman A.H. Association between infancy BMI peak and body composition and blood pressure at age 5-6 years. PLoS One . 2013;8(12):e80517. 105. Rolland-Cachera M.F., Deheeger M., Bellisle F., Sempe M., Guilloud-Bataille M., Patois E. Adiposity rebound in children: a simple indicator for predicting obesity. Am J Clin Nutr . 1984;39(1):129-135. 106. De Kroon M.L., Renders C.M., Van Wouwe J.P., Van Buuren S., Hirasing R.A. The Terneuzen birth cohort: BMI changes between 2 and 6 years correlate strongest with adult overweight. PLoS One . 2010;5(2):e9155. 107. Barker D.J., Osmond C., Forsen T.J., Kajantie E., Eriksson J.G. Trajectories of growth among children who have coronary events as adults. N Engl J Med . 2005;353(17):1802-1809. 108. Lawlor D.A., Najman J.M., Sterne J., Williams G.M., Ebrahim S., Davey S.G. Associations of parental, birth, and early life characteristics with systolic blood pressure at 5 years of age: findings from the Mater-University study of pregnancy and its outcomes. Circulation . 2004;110(16):2417-2423. 109. Eriksson J., Forsen T., Tuomilehto J., Osmond C., Barker D. Fetal and childhood growth and hypertension in adult life. Hypertension . 2000;36(5):790-794. 110. Forsen T., Eriksson J., Tuomilehto J., Reunanen A., Osmond C., Barker D. The fetal and childhood growth of persons who develop type 2 diabetes. Ann.Intern.Med. 2000;133(3):176-182. 111. Corvalan C., Uauy R., Stein A.D., Kain J., Martorell R. Effect of growth on cardiometabolic status at 4 y of age. Am.J.Clin.Nutr. 2009;90(3):547-555. 112. de Kroon M.L., Renders C.M., van Wouwe J.P., van Buuren S., Hirasing R.A. The Terneuzen Birth Cohort: BMI change between 2 and 6 years is most predictive of adult cardiometabolic risk. PLoS One . 2010;5(11):e13966. 113. Leunissen R.W., Kerkhof G.F., Stijnen T., Hokken-Koelega A. Timing and tempo of first-year rapid growth in relation to cardiovascular and metabolic risk profile in early adulthood. JAMA . 2009;301(21):2234-2242. 114. Page K.C., Malik R.E., Ripple J.A., Anday E.K. Maternal and postweaning diet interaction alters hypothalamic gene expression and modulates response to a high-fat diet in male offspring. Am.J.Physiol Regul.Integr.Comp Physiol . 2009;297(4):R1049-R1057. 115. Chen H., Simar D., Lambert K., Mercier J., Morris M.J. Maternal and postnatal overnutrition differentially impact appetite regulators and fuel metabolism. Endocrinology . 2008;149(11):5348- 5356. 116. Rajia S., Chen H., Morris M.J. Maternal overnutrition impacts offspring adiposity and brain appetite markers-modulation by postweaning diet. J.Neuroendocrinol. 2010;22(8):905-914. 117. Sun B., Purcell R.H., Terrillion C.E., Yan J., Moran T.H., Tamashiro K.L. Maternal high-fat diet during gestation or suckling differentially affects offspring leptin sensitivity and obesity. Diabetes . 2012;61(11):2833-2841. 118. de Zegher F., Devlieger H., Eeckels R. Fetal growth: boys before girls. Horm Res . 1999;51(5):258- 259. 119. Villar J., Cheikh Ismail L., Victora C.G., Ohuma E.O., Bertino E., Altman D.G., et al. International standards for newborn weight, length, and head circumference by gestational age and sex: the Newborn Cross-Sectional Study of the INTERGROWTH-21st Project. Lancet . 2014;384(9946):857- 868. 120. Visser G.H., Eilers P.H., Elferink-Stinkens P.M., Merkus H.M., Wit J.M. New Dutch reference curves for birthweight by gestational age. Early Hum Dev . 2009;85(12):737-744. 121. Broere-Brown Z.A., Baan E., Schalekamp-Timmermans S., Verburg B.O., Jaddoe V.W., Steegers E.A. Sex-specific differences in fetal and infant growth patterns: a prospective population-based cohort study. Biol Sex Differ . 2016;7:65.

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