Developmental origins of osteoporosis: the role of maternal nutrition
Developmental origins of osteoporosis: the role of maternal nutrition
Osteoporosis is a major cause of morbidity and mortality through its association with age-related fractures. Although most effort in fracture prevention has been directed at retarding the rate of age-related bone loss, and reducing the frequency and severity of trauma among elderly people, evidence is growing that peak bone mass is an important contributor to bone strength during later life. The normal patterns of skeletal growth have been well characterised in cross-sectional and longitudinal studies. It has been confirmed that boys have higher bone mineral content, but not volumetric bone density, than girls.
Furthermore, there is a dissociation between the peak velocities for height gain and bone mineral accrual in both genders. Puberty is the period during which volumetric density appears to increase in both axial and appendicular sites. Many factors influence the accumulation of bone mineral during childhood and adolescence, including heredity, gender, diet, physical activity, endocrine status, and sporadic risk factors such as cigarette smoking. In addition to these modifiable factors during childhood, evidence has also accrued that fracture risk might be programmed during intrauterine life.
Epidemiological studies have demonstrated a relationship between birthweight, weight in infancy, and adult bone mass. This appears to be mediated through modulation of the set-point for basal activity of pituitary-dependent endocrine systems such as the hypothalamic-pituitary-adrenal (HPA) and growth hormone/insulin-like growth factor-1 (GH/IGF-1) axes. Maternal smoking, diet (particularly vitamin D deficiency) and physical activity also appear to modulate bone mineral acquisition during intrauterine life; furthermore, both low birth size and poor childhood growth, are directly linked to the later risk of hip fracture. The optimisation of maternal nutrition and intrauterine growth should also be included within preventive strategies against osteoporotic fracture, albeit for future generations.
epidemiology, osteoporosis, fetal origins, bone mineral
9781402091728
31-39
Cooper, C.
e05f5612-b493-4273-9b71-9e0ce32bdad6
Harvey, N.
ce487fb4-d360-4aac-9d17-9466d6cba145
Cole, Z.
6802e58a-59b3-4518-bb7d-6f721732cd61
Hanson, M.
1952fad1-abc7-4284-a0bc-a7eb31f70a3f
Dennison, E.
ee647287-edb4-4392-8361-e59fd505b1d1
2009
Cooper, C.
e05f5612-b493-4273-9b71-9e0ce32bdad6
Harvey, N.
ce487fb4-d360-4aac-9d17-9466d6cba145
Cole, Z.
6802e58a-59b3-4518-bb7d-6f721732cd61
Hanson, M.
1952fad1-abc7-4284-a0bc-a7eb31f70a3f
Dennison, E.
ee647287-edb4-4392-8361-e59fd505b1d1
Cooper, C., Harvey, N., Cole, Z., Hanson, M. and Dennison, E.
(2009)
Developmental origins of osteoporosis: the role of maternal nutrition.
In,
Early Nutrition Programming and Health Outcomes in Later Life: Obesity and Beyond.
(Advances in Experimental Medicine and Biology, 646, 646)
London, GB.
Springer, .
(doi:10.1007/978-1-4020-9173-5_3).
Record type:
Book Section
Abstract
Osteoporosis is a major cause of morbidity and mortality through its association with age-related fractures. Although most effort in fracture prevention has been directed at retarding the rate of age-related bone loss, and reducing the frequency and severity of trauma among elderly people, evidence is growing that peak bone mass is an important contributor to bone strength during later life. The normal patterns of skeletal growth have been well characterised in cross-sectional and longitudinal studies. It has been confirmed that boys have higher bone mineral content, but not volumetric bone density, than girls.
Furthermore, there is a dissociation between the peak velocities for height gain and bone mineral accrual in both genders. Puberty is the period during which volumetric density appears to increase in both axial and appendicular sites. Many factors influence the accumulation of bone mineral during childhood and adolescence, including heredity, gender, diet, physical activity, endocrine status, and sporadic risk factors such as cigarette smoking. In addition to these modifiable factors during childhood, evidence has also accrued that fracture risk might be programmed during intrauterine life.
Epidemiological studies have demonstrated a relationship between birthweight, weight in infancy, and adult bone mass. This appears to be mediated through modulation of the set-point for basal activity of pituitary-dependent endocrine systems such as the hypothalamic-pituitary-adrenal (HPA) and growth hormone/insulin-like growth factor-1 (GH/IGF-1) axes. Maternal smoking, diet (particularly vitamin D deficiency) and physical activity also appear to modulate bone mineral acquisition during intrauterine life; furthermore, both low birth size and poor childhood growth, are directly linked to the later risk of hip fracture. The optimisation of maternal nutrition and intrauterine growth should also be included within preventive strategies against osteoporotic fracture, albeit for future generations.
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Published date: 2009
Keywords:
epidemiology, osteoporosis, fetal origins, bone mineral
Organisations:
Dev Origins of Health & Disease
Identifiers
Local EPrints ID: 68836
URI: http://eprints.soton.ac.uk/id/eprint/68836
ISBN: 9781402091728
ISSN: 0065-2598
PURE UUID: f35cf070-782e-43f3-8ad8-7a4bf4795be5
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Date deposited: 06 Oct 2009
Last modified: 18 Mar 2024 02:58
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Author:
Z. Cole
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