TY - JOUR
T1 - Natural history and risk factors for bone loss in postmenopausal Caucasian women: a 15-year follow-up population-based study
AU - Zhai, G
AU - Hart, D J
AU - Valdes, A M
AU - Kato, B S
AU - Richards, J B
AU - Hakim, A
AU - Spector, T D
PY - 2008/8
Y1 - 2008/8
N2 - In this 15-year follow-up study, we found that the estimated rate of bone loss at the femoral neck (FN) for women aged 45-68 was linear at a rate of 1.67% per year, but quadratic for lumbar spine (LS) at a rate of 3.12% initially, and slowing down with age. We also confirmed the protective role of HRT, increasing weight, and lean mass in long-term bone loss. Introduction The objective was to describe the natural history of bone loss and explore the role of environmental factors in postmenopausal women over a 15-year period. Methods Bone mineral density (BMD) at the FN and the LS were measured in postmenopausal women from the Chingford Study. Height, weight, HRT status, and calcium/vitamin D supplement were assessed at each visit. Osteoarthritis of hip and spine was assessed by X-ray at baseline and at year 8. Results A total of 955 postmenopausal women with an average age of 54.7 at baseline were included. Both FN and LS BMD decreased significantly with age (p <0.0001). The decline was larger in the LS (-3.12% per year), which showed a quadratic relationship, than in the FN (-1.67% per year) with a linear relationship. The rate of bone loss was reduced by one third annually for the FN and LS respectively in current HRT users. Change in weight was positively associated with both Delta FN and Delta LS BMD (beta = 0.16% and 0.09% change in Delta FN and Delta LS BMD per kilogramme change in weight respectively, p <0.0001 for both sites). Spine OA and progression were positively associated with Delta LS BMD (beta = 1.22% change in Delta LS BMD per grade in spine OA and 0.45% change in Delta LS BMD for patients who progressed, p <0.0001 for spine OA and p = 0.002 for spine OA progression). Spine OA (beta = 0.54% change in Delta FN BMD per grade, p <0.0001), but not progression, and hip OA were positively associated with Delta FN BMD. Furthermore, both age and body weight at baseline were positively associated with both Delta FN and Delta LS BMD (beta = 0.02-0.04% change in Delta FN and Delta LS BMD per year increase in age at baseline and 0.004-0.007% change in Delta FN and Delta LS BMD per kilogramme increase in weight at baseline, all p <0.0001). Conclusion This large population-based longitudinal study demonstrated that the decline of BMD over 15 years is linear with age for the FN, but quadratic for the LS. The study confirmed the protective role of HRT, increased weight and lean mass in long-term bone loss
AB - In this 15-year follow-up study, we found that the estimated rate of bone loss at the femoral neck (FN) for women aged 45-68 was linear at a rate of 1.67% per year, but quadratic for lumbar spine (LS) at a rate of 3.12% initially, and slowing down with age. We also confirmed the protective role of HRT, increasing weight, and lean mass in long-term bone loss. Introduction The objective was to describe the natural history of bone loss and explore the role of environmental factors in postmenopausal women over a 15-year period. Methods Bone mineral density (BMD) at the FN and the LS were measured in postmenopausal women from the Chingford Study. Height, weight, HRT status, and calcium/vitamin D supplement were assessed at each visit. Osteoarthritis of hip and spine was assessed by X-ray at baseline and at year 8. Results A total of 955 postmenopausal women with an average age of 54.7 at baseline were included. Both FN and LS BMD decreased significantly with age (p <0.0001). The decline was larger in the LS (-3.12% per year), which showed a quadratic relationship, than in the FN (-1.67% per year) with a linear relationship. The rate of bone loss was reduced by one third annually for the FN and LS respectively in current HRT users. Change in weight was positively associated with both Delta FN and Delta LS BMD (beta = 0.16% and 0.09% change in Delta FN and Delta LS BMD per kilogramme change in weight respectively, p <0.0001 for both sites). Spine OA and progression were positively associated with Delta LS BMD (beta = 1.22% change in Delta LS BMD per grade in spine OA and 0.45% change in Delta LS BMD for patients who progressed, p <0.0001 for spine OA and p = 0.002 for spine OA progression). Spine OA (beta = 0.54% change in Delta FN BMD per grade, p <0.0001), but not progression, and hip OA were positively associated with Delta FN BMD. Furthermore, both age and body weight at baseline were positively associated with both Delta FN and Delta LS BMD (beta = 0.02-0.04% change in Delta FN and Delta LS BMD per year increase in age at baseline and 0.004-0.007% change in Delta FN and Delta LS BMD per kilogramme increase in weight at baseline, all p <0.0001). Conclusion This large population-based longitudinal study demonstrated that the decline of BMD over 15 years is linear with age for the FN, but quadratic for the LS. The study confirmed the protective role of HRT, increased weight and lean mass in long-term bone loss
U2 - 10.1007/s00198-008-0562-x
DO - 10.1007/s00198-008-0562-x
M3 - Article
SN - 1433-2965
VL - 19
SP - 1211
EP - 1217
JO - Osteoporosis International
JF - Osteoporosis International
IS - 8
ER -