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1.
Hellmuth, C.* et al.: An individual participant data meta-analysis on metabolomics profiles for obesity and insulin resistance in European children. Sci. Rep. 9:5053 (2019)
2.
Santos, S.* et al.: Impact of maternal body mass index and gestational weight gain on pregnancy complications: An individual participant data meta-analysis of European, North American and Australian cohorts. BJOG, accepted (2019)
3.
Voerman, E.* et al.: Maternal body mass index, gestational weight gain, and the risk of overweight and obesity across childhood: An individual participant data meta-analysis. PLoS Med. 16:e1002744 (2019)
4.
Demmelmair, H.* et al.: Determinants of plasma docosahexaenoic acid levels and their relationship to neurological and cognitive functions in PKU patients: A double blind randomized supplementation study. Nutrients 10:1944 (2018)
5.
Felix, J.F.* et al.: Cohort profile: Pregnancy and childhood epigenetics (PACE) consortium. Int. J. Epidemiol. 47, 22-23u (2018)
6.
Koletzko, B.* et al.: Metabolic regulation of pre- and postnatal growth. In: (Nestle Nutr. Inst. Workshop Ser.). 2018. 79-91 ( ; 89)
7.
Reese, S.E.* et al.: Epigenome-wide meta-analysis of DNA methylation and childhood asthma. J. Allergy Clin. Immunol. 143, 2062-2074 (2018)
8.
Santos, S.* et al.: Gestational weight gain charts for different body mass index groups for women in Europe, North America, and Oceania. BMC Med. 16:201 (2018)
9.
Tanjung, C.* et al.: The association of fatty acid desaturase gene polymorphisms on long-chain polyunsaturated fatty acid composition in Indonesian infants. Am. J. Clin. Nutr. 108, 1135-1144 (2018)
10.
Altmäe, S.* et al.: Maternal pre-pregnancy obesity is associated with altered placental transcriptome. PLoS ONE 12:e0169223 (2017)
11.
Harris, C. et al.: Dietary fatty acids and changes in blood lipids during adolescence: The role of substituting nutrient intakes. Nutrients 9:127 (2017)
12.
Harris, C. et al.: Associations between fatty acids and low-grade inflammation in children from the LISAplus birth cohort study. Eur. J. Clin. Nutr. 71, 1303-1311 (2017)
13.
Hellmuth, C.* et al.: Cord blood metabolome is highly associated with birth weight, but less predictive for later weight development. Obes. Facts 10, 85-100 (2017)
14.
Rzehak, P.* et al.: DNA-methylation and body composition in preschool children: Epigenome-wide-analysis in the European Childhood Obesity Project (CHOP)-Study. Sci. Rep. 7:14349 (2017)
15.
Segura, M.T.* et al.: Maternal BMI and gestational diabetes alter placental lipid transporters and fatty acid composition. Placenta 57, 144-151 (2017)
16.
Tanjung, C.* et al.: Study protocol to investigate the environmental and genetic aetiology of atopic dermatitis: The Indonesian Prospective Study of Atopic Dermatitis in Infants (ISADI). BMJ Open 7:e012475 (2017)
17.
van den Bruck, R.* et al.: Abstracts of the 52nd Workshop for Pediatric Research : Frankfurt, Germany. 27-28 October 2016. Mol. Cell. Pediatr. 4, 1:5 (2017)
18.
Flexeder, C. et al.: Peak weight velocity in infancy is negatively associated with lung function in adolescence. Pediatr. Pulmonol. 51, 147-156 (2016)
19.
Flexeder, C. et al.: Is a child's growth pattern early in life related to serum adipokines at the age of 10 years? World Rev. Nutr. Diet. 114, 6-7 (2016)
20.
Harris, C. et al.: Prospective associations of meat consumption during childhood with measures of body composition during adolescence: Results from the GINIplus and LISAplus birth cohorts. Nutr. J. 15:101 (2016)