Sarah Westlake scite author profile

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 (BMC), 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 birth weight, 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 HPA and 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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The effect of methotrexate on cardiovascular disease in patients with rheumatoid arthritis: a systematic literature review

Westlake

et al. 2009

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BSR and BHPR rheumatoid arthritis guidelines on safety of anti-TNF therapies

Ding¹,

Ledingham²,

Luqmani³

et al. 2010

Rheumatology

183

153

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Tumour necrosis factor antagonists and the risk of cardiovascular disease in patients with rheumatoid arthritis: a systematic literature review

et al. 2010

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Developmental Origins of Osteoporotic Fracture: the Role of Maternal Vitamin D Insufficiency

Cooper

Javaid

Westlake

et al. 2005

The Journal of Nutrition

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Osteoporosis is a major cause of morbidity and mortality through its association with age-related fractures. Although most efforts in fracture prevention have been directed at retarding the rate of age-related bone loss and reducing the frequency and the 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 characterized 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 disassociation 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 (e.g., 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 endocrine systems such as the GH/IGF-1 and parathyroid hormone/vitamin D axes. Maternal vitamin D insufficiency is associated with reduced bone mineral acquisition during intrauterine and early postnatal life. Furthermore, both low birth size and poor childhood growth are directly linked to the later risk of hip fracture. The optimization of maternal nutrition and intrauterine growth should also be included within preventive strategies against osteoporotic fracture, albeit for future generations.

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Developmental Origins of Osteoporotic Fracture

Cooper

Westlake

Harvey

et al.

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Fatigue in RA

Richards

Westlake

2011

Rheumatology

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Carboxypeptidase‐B activation peptide, a marker of pancreatic acinar injury, but not l‐selectin, a marker of neutrophil activation, predicts severity of acute pancreatitis

Hilal

Ung

Westlake

et al. 2007

J of Gastro and Hepatol

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12 3

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Sarah Westlake

Review: developmental origins of osteoporotic fracture

The effect of methotrexate on cardiovascular disease in patients with rheumatoid arthritis: a systematic literature review

BSR and BHPR rheumatoid arthritis guidelines on safety of anti-TNF therapies

Tumour necrosis factor antagonists and the risk of cardiovascular disease in patients with rheumatoid arthritis: a systematic literature review

Developmental Origins of Osteoporotic Fracture: the Role of Maternal Vitamin D Insufficiency

Developmental Origins of Osteoporotic Fracture

Fatigue in RA

Carboxypeptidase‐B activation peptide, a marker of pancreatic acinar injury, but not l‐selectin, a marker of neutrophil activation, predicts severity of acute pancreatitis

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