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Literature DB >> 3093021

Is postmenopausal bone loss an age-related phenomenon?

K Thomsen, A Gotfredsen, C Christiansen.

Abstract

Forearm bone mineral content (BMC), an index of skeletal mineralization, and lean body mass (LBM), an index of the muscle mass in the body, were calculated in 574 healthy, white subjects, aged 20-89 years. In women, there was no significant change in BMC with age until the menopause. Thereafter, a significant decline averaging 15% per decade was found up to the age of 70 years, after which it was 10% per decade. In men, there was a significant overall decline of about 4% per decade from the age of 20. When BMC was corrected for LBM, the age-related fall in men disappeared, while remaining without a significant trend in premenopausal women. This was, however, not the case in women after the menopause, where a significant decline of about 12% per decade was noted. These data clearly demonstrate that the major contribution to the well-known bone loss in postmenopausal women is not a simple age-related phenomenon. The development of osteoporosis must be due to some additional bone-diminishing effect on the female skeleton, most likely the absence of estrogen.

Entities: Disease Species

Mesh：

Substances：
Minerals

Year: 1986 PMID： 3093021 DOI： 10.1007/bf02555106

Source DB: PubMed Journal: Calcif Tissue Int ISSN： 0171-967X Impact factor: 4.333

27 in total

1. Proceedings: The slowing of the rate of mineral loss with aging.

Authors: D M Smith; M R Khairi; C C Johnston; J Norton
Journal: AJR Am J Roentgenol Date: 1976-06 Impact factor: 3.959

2. Representativity of regional to total bone mineral in healthy subjects and 'anticonvulsive treated' epileptic patients. Measurements by single and dual photon absorptiometry.

Authors: A Gotfredsen; J Borg; L Nilas; L Tjellesen; C Christiansen
Journal: Eur J Clin Invest Date: 1986-06 Impact factor: 4.686

3. Bone composition in the distal forearm.

Authors: L Nilas; H Nørgaard; J Pødenphant; A Gotfredsen; C Christiansen
Journal: Scand J Clin Lab Invest Date: 1987-02 Impact factor: 1.713

4. Disuse osteoporosis: physiological aspects.

Authors: G D Whedon
Journal: Calcif Tissue Int Date: 1984 Impact factor: 4.333

5. Relative contributions of aging and estrogen deficiency to postmenopausal bone loss.

Authors: L S Richelson; H W Wahner; L J Melton; B L Riggs
Journal: N Engl J Med Date: 1984-11-15 Impact factor: 91.245

6. Total body composition by dual-photon (153Gd) absorptiometry.

Authors: R B Mazess; W W Peppler; M Gibbons
Journal: Am J Clin Nutr Date: 1984-10 Impact factor: 7.045

7. The relation of total body potassium to height, weight, and age in normal adults.

Authors: K Boddy; P C King; R Hume; E Weyers
Journal: J Clin Pathol Date: 1972-06 Impact factor: 3.411

8. The loss of bone mineral with aging and its relationship to risk of fracture.

Authors: D M Smith; M R Khairi; C C Johnston
Journal: J Clin Invest Date: 1975-08 Impact factor: 14.808

9. Quantitative computed tomography for prediction of vertebral fracture risk.

Authors: C E Cann; H K Genant; F O Kolb; B Ettinger
Journal: Bone Date: 1985 Impact factor: 4.398

10. Long-term reproducibility of bone mineral content measurements.

Authors: C Christiansen; P Rödbro
Journal: Scand J Clin Lab Invest Date: 1977-06 Impact factor: 1.713

17 in total

1. Microcomputed tomography analysis of particular autogenous bone graft in sinus augmentation at 5 months: differences on bone mineral density and 3D trabecular structure.

Authors: Heng-Li Huang; Jui-Ting Hsu; Michael Y C Chen; Cheng Liu; Ching-Han Chang; Yu-Fen Li; Kuan-Ting Chen
Journal: Clin Oral Investig Date: 2012-04-25 Impact factor: 3.573

Review 2. The peak bone mass concept.

Authors: P Burckhardt; C Michel
Journal: Clin Rheumatol Date: 1989-06 Impact factor: 2.980

Is postmenopausal bone loss an age-related phenomenon?

1. Proceedings: The slowing of the rate of mineral loss with aging.

2. Representativity of regional to total bone mineral in healthy subjects and 'anticonvulsive treated' epileptic patients. Measurements by single and dual photon absorptiometry.

3. Bone composition in the distal forearm.

4. Disuse osteoporosis: physiological aspects.

5. Relative contributions of aging and estrogen deficiency to postmenopausal bone loss.

6. Total body composition by dual-photon (153Gd) absorptiometry.

7. The relation of total body potassium to height, weight, and age in normal adults.

8. The loss of bone mineral with aging and its relationship to risk of fracture.

9. Quantitative computed tomography for prediction of vertebral fracture risk.

10. Long-term reproducibility of bone mineral content measurements.

1. Microcomputed tomography analysis of particular autogenous bone graft in sinus augmentation at 5 months: differences on bone mineral density and 3D trabecular structure.

Review 2. The peak bone mass concept.

3. Age, time since menopause, and body parameters as determinants of female spinal bone mass: a mathematical model.

4. Effects of age and menopause on bone density of entire skeleton in healthy and osteoporotic women.

5. Influence of body parameters on female peak bone mass and bone loss.

6. Sex differences in bone resorption in the mouse femur. A light- and scanning electron-microscopic study.

7. Calcitonin reserve in healthy women and patients with postmenopausal osteoporosis.

Review 8. Bone mineral content in calcium renal stone formers.

9. Rapid postmenopausal loss of total body and regional bone mass in normal southern Chinese females in Hong Kong.

10. Bone mineral content and anthropometric variables in men: a cross-sectional study in 324 normal subjects.