Bone mass in childhood is related to maternal diet in pregnancy
Bone mass in childhood is related to maternal diet in pregnancy
Evidence that birth weight is related to bone mass in later life suggests that the intrauterine environment programs the trajectory of subsequent bone development. To explore this hypothesis, we examined whether maternal diet in pregnancy, as assessed by the maternal food frequency questionnaire (FFQ) completed at 32 weeks gestation, is related to bone mass of the child, as measured by total body DXA carried out at age 9 years in the Avon Longitudinal Study of Parents and Children (ALSPAC). Diet records were linked to DXA scan results for the total body and spine sub-region and pooled between pre- and early pubertal boys and girls ( n =4,451). Regression analysis was carried out between DXA values and dietary factors following adjustment for social and other confounding factors. Maternal magnesium intake was related to total body BMC (beta=4.9, 7.4–23.1; g) and BMD (beta=4.9, 2.5–7.3; g/cm2 ×103) (standardized regression coefficient with 95% confidence limits; P <0.001). An equivalent relationship was no longer observed after adjusting for the height of the child, to which magnesium intake was also related (beta=0.48, 0.20–0.77; cm; P =0.001). Maternal intake of potassium was related to spinal BMC (beta=1.8, 0.8–2.9; g) and BMD (beta=10.5, 4.9–16.0; g/cm2 ×103) ( P =0.001), which was no longer observed after adjusting for the weight of the child, to which potassium intake was also related (beta=0.52, 0.16–0.88, P =0.005; kg). A significant association was also observed between maternal dietary folate intake and spinal BMC adjusted for bone area using a linear regression model (beta=0.55, 0.16–0.94; g; P =0.006), which persisted after adjusting for height and weight. Our observation that constituents of maternal diet are related to DXA measures at age 9 is consistent with the hypothesis that the trajectory of bone development in childhood is programmed by early life factors.
bone development, folic acid, magnesium, potassium
1731-1741
Tobias, J.H.
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Steer, C.D.
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Emmett, P.M.
77417a17-aee3-4890-b684-223020178051
Tonkin, R.J.
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Cooper, C.
e05f5612-b493-4273-9b71-9e0ce32bdad6
Ness, A.R.
f2d3072d-bcf3-48cc-853a-248bd5c4ee56
2005
Tobias, J.H.
de2ae2cb-8547-475a-98e0-9d5169b8deb7
Steer, C.D.
640afb2f-aa37-4d4e-90af-6f3b36f12261
Emmett, P.M.
77417a17-aee3-4890-b684-223020178051
Tonkin, R.J.
e00a7734-f0a3-4cbf-9c70-967393187e22
Cooper, C.
e05f5612-b493-4273-9b71-9e0ce32bdad6
Ness, A.R.
f2d3072d-bcf3-48cc-853a-248bd5c4ee56
Tobias, J.H., Steer, C.D., Emmett, P.M., Tonkin, R.J., Cooper, C. and Ness, A.R.
(2005)
Bone mass in childhood is related to maternal diet in pregnancy.
Osteoporosis International, 16 (12), .
(doi:10.1007/s00198-005-1912-6).
Abstract
Evidence that birth weight is related to bone mass in later life suggests that the intrauterine environment programs the trajectory of subsequent bone development. To explore this hypothesis, we examined whether maternal diet in pregnancy, as assessed by the maternal food frequency questionnaire (FFQ) completed at 32 weeks gestation, is related to bone mass of the child, as measured by total body DXA carried out at age 9 years in the Avon Longitudinal Study of Parents and Children (ALSPAC). Diet records were linked to DXA scan results for the total body and spine sub-region and pooled between pre- and early pubertal boys and girls ( n =4,451). Regression analysis was carried out between DXA values and dietary factors following adjustment for social and other confounding factors. Maternal magnesium intake was related to total body BMC (beta=4.9, 7.4–23.1; g) and BMD (beta=4.9, 2.5–7.3; g/cm2 ×103) (standardized regression coefficient with 95% confidence limits; P <0.001). An equivalent relationship was no longer observed after adjusting for the height of the child, to which magnesium intake was also related (beta=0.48, 0.20–0.77; cm; P =0.001). Maternal intake of potassium was related to spinal BMC (beta=1.8, 0.8–2.9; g) and BMD (beta=10.5, 4.9–16.0; g/cm2 ×103) ( P =0.001), which was no longer observed after adjusting for the weight of the child, to which potassium intake was also related (beta=0.52, 0.16–0.88, P =0.005; kg). A significant association was also observed between maternal dietary folate intake and spinal BMC adjusted for bone area using a linear regression model (beta=0.55, 0.16–0.94; g; P =0.006), which persisted after adjusting for height and weight. Our observation that constituents of maternal diet are related to DXA measures at age 9 is consistent with the hypothesis that the trajectory of bone development in childhood is programmed by early life factors.
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Published date: 2005
Keywords:
bone development, folic acid, magnesium, potassium
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Local EPrints ID: 26036
URI: http://eprints.soton.ac.uk/id/eprint/26036
ISSN: 0937-941X
PURE UUID: 86203129-3396-4cd5-b9fa-d1353e6f44cf
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Date deposited: 12 Apr 2006
Last modified: 18 Mar 2024 02:44
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Author:
J.H. Tobias
Author:
C.D. Steer
Author:
P.M. Emmett
Author:
R.J. Tonkin
Author:
A.R. Ness
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