BACKGROUND: It has been suggested that phytoestrogens and dietary fiber can affect puberty timing. OBJECTIVE: We examined whether intake of isoflavone and fiber in healthy white children before their pubertal growth spurt [age at take-off (ATO)] was associated with puberty timing. DESIGN: Multivariate regression analyses were performed in 227 DONALD (DOrtmund Nutritional and Anthropometric Longitudinally Designed) Study participants with 3-d weighed dietary records and information on potential confounders at baseline (1 and 2 y before ATO). In a subsample (n = 111), urinary isoflavones were determined in 24-h urine samples by gas chromatography-mass spectrometry analysis. Puberty timing was examined by using ATO and chronologic ages at pubertal stage 2 for breast development (B2) or gonadal development, peak height velocity (PHV), and menarche or voice break. RESULTS: Girls whose diet was in the highest dietary isoflavone tertile experienced Tanner stage 2 for breast development ap 0.7 y later and reached PHV ap 0.6 y later than did girls whose diet was in the lowest isoflavone tertile [age (95% CI) at B2: 10.7 y (10.4, 10.9 y) compared with 10.0 y ( 9.7, 10.3 y), respectively; P for trend = 0.04; age at PHV: 11.9 y (11.6, 12.2 y) compared with 11.3 y (11.0, 11.6 y), respectively; P for trend = 0.04; adjusted for body mass index z score and fiber intake]. In boys, dietary isoflavones were not associated with pubertal markers. Urinary isoflavone and dietary fiber intakes were not associated with pubertal markers. CONCLUSIONS: Girls, but not boys, with higher prepubertal isoflavone intakes appear to enter puberty at a later age. Fiber intake in this sample of healthy white girls and boys was not relevant for puberty timing.
BACKGROUND: It has been suggested that phytoestrogens and dietary fiber can affect puberty timing. OBJECTIVE: We examined whether intake of isoflavone and fiber in healthy white children before their pubertal growth spurt [age at take-off (ATO)] was associated with puberty timing. DESIGN: Multivariate regression analyses were performed in 227 DONALD (DOrtmund Nutritional and Anthropometric Longitudinally Designed) Study participants with 3-d weighed dietary records and information on potential confounders at baseline (1 and 2 y before ATO). In a subsample (n = 111), urinary isoflavones were determined in 24-h urine samples by gas chromatography-mass spectrometry analysis. Puberty timing was examined by using ATO and chronologic ages at pubertal stage 2 for breast development (B2) or gonadal development, peak height velocity (PHV), and menarche or voice break. RESULTS:Girls whose diet was in the highest dietary isoflavone tertile experienced Tanner stage 2 for breast development ap 0.7 y later and reached PHV ap 0.6 y later than did girls whose diet was in the lowest isoflavone tertile [age (95% CI) at B2: 10.7 y (10.4, 10.9 y) compared with 10.0 y ( 9.7, 10.3 y), respectively; P for trend = 0.04; age at PHV: 11.9 y (11.6, 12.2 y) compared with 11.3 y (11.0, 11.6 y), respectively; P for trend = 0.04; adjusted for body mass index z score and fiber intake]. In boys, dietary isoflavones were not associated with pubertal markers. Urinary isoflavone and dietary fiber intakes were not associated with pubertal markers. CONCLUSIONS:Girls, but not boys, with higher prepubertal isoflavone intakes appear to enter puberty at a later age. Fiber intake in this sample of healthy white girls and boys was not relevant for puberty timing.
Authors: Mary S Wolff; Ashley Pajak; Susan M Pinney; Gayle C Windham; Maida Galvez; Michael Rybak; Manori J Silva; Xiaoyun Ye; Antonia M Calafat; Lawrence H Kushi; Frank M Biro; Susan L Teitelbaum Journal: Reprod Toxicol Date: 2016-11-13 Impact factor: 3.143
Authors: Nancy A Mervish; Eliza W Gardiner; Maida P Galvez; Larry H Kushi; Gayle C Windham; Frank M Biro; Susan M Pinney; Michael E Rybak; Susan L Teitelbaum; Mary S Wolff Journal: Nutr Res Date: 2013-05-31 Impact factor: 3.315
Authors: Elisa V Bandera; Urmila Chandran; Brian Buckley; Yong Lin; Sastry Isukapalli; Ian Marshall; Melony King; Helmut Zarbl Journal: Sci Total Environ Date: 2011-10-04 Impact factor: 7.963
Authors: Fitriya N Dewi; Charles E Wood; Cynthia J Lees; Cynthia J Willson; Thomas C Register; Janet A Tooze; Adrian A Franke; J Mark Cline Journal: Cancer Prev Res (Phila) Date: 2013-06-14
Authors: Mary S Wolff; Susan L Teitelbaum; Kathleen McGovern; Susan M Pinney; Gayle C Windham; Maida Galvez; Ashley Pajak; Michael Rybak; Antonia M Calafat; Lawrence H Kushi; Frank M Biro Journal: Environ Int Date: 2015-08-31 Impact factor: 9.621