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Lumbar Spine and Total Body Bone Mass in Healthy Elderly Men and Women

Published online by Cambridge University Press:  29 November 2010

Résumé:

La masse de la colonne vertébrale lombaire ainsi que la masse osseuse totale ont été déterminées chez 119 hommes et femmes âgés en bonne santé par la technique d'absorptiométrie bi-photonique. Le taux de perte du contenu minéral de la colonne vertébrale lombaire est le même chez l'homme âgé et chez la femme âgée, et n'est, sans doute, pas différent du taux accepté pour les jeunes adultes. Chez les femmes âgées, nous avons mesuré une perte annuelle significative de 24 g du contenu minéral osseux du squelette. Le plus important indice de prédiction de la masse osseuse est le poids de la personne. Des variables représentant la santé physique ou la force, seule la force du bras contribue à la variation de la masse osseuse, étant responsable de 4 pour cent de la variation dans la densité du minéral osseux de la colonne vertébrale lombaire de la femme.

Type
Articles
Copyright
Copyright © Canadian Association on Gerontology 1995

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References

Bevier, W.C., Wiswell, R.A., Pyka, G., Kozak, C., Newhall, K.M., & Marcus, R. (1989). Relationship of body composition, muscle strength and aerobic capacity to bone mineral density in older men and women. Journal of Bone and Mineral Research, 4, 421432.CrossRefGoogle ScholarPubMed
Dawson-Hughes, B., Shipp, C., Sadowski, L.K., & Dallal, G. (1987). Bone density of the radius, spine and hip in relation to percent of ideal body weight in post-menopausal women. Calcified Tissue International, 40, 310314.CrossRefGoogle Scholar
Draper, N.R., & Smith, H. (1980). Applied regression analysis, 2nd ed.New York: John Wiley and Sons.Google Scholar
Elders, P.J.M., Netelenbos, J.C., Lips, P., van Ginkel, F.C., & van der Stelt, P.F. (1988). Accelerated vertebral bone loss in relation to the menopause: a cross-sectional study on lumbar bone density in 286 women of 46 to 55 years of age. Bone and Mineral, 5, 1119.CrossRefGoogle Scholar
Galea, V., Ormerod, S., White, N., MacDougall, J.D., & Webber, C.E. (1990). Body composition by photon absorptiometry. Canadian Journal of Sport Science, 15, 143148.Google ScholarPubMed
Gallagher, J.C., Goldgar, D., & Moy, A. (1987). Total bone calcium in normal women: effect of age and menopause status. Journal of Bone Mineral Research, 2, 491496.CrossRefGoogle ScholarPubMed
Geusens, P., Dequeker, J., Verstraeten, A., & Nijs, J. (1986). Age, sex and menopause related changes of vertebral and peripheral bone: population study using dual and single photon absorptiometry and radiogrammetry. Journal of Nuclear Medicine, 27, 15401549.Google ScholarPubMed
Hansson, T., & Roos, B. (1986). Age changes in the bone mineral of the lumbar spine in normal women. Calcified Tissue International, 38, 249251.CrossRefGoogle ScholarPubMed
Harris, S., Dallal, G.E., & Dawson-Hughes, B. (1992). Influence of body weight on rates of change in bone density of the spine, hip and radius in postmenopausal women. Calcified Tissue International, 50, 1923.CrossRefGoogle ScholarPubMed
Jones, H.H., Priest, J.D., Hayes, W.C., Tichenor, C.C., & Nagel, D.A. (1977). Humeral hypertrophy in response to exercise. Journal of Bone and Joint Surgery, 59-A, 204208.CrossRefGoogle ScholarPubMed
King, J.W., Brelsford, H.J., & Tullos, H.S. (1969). Analysis of the pitching arm of the professional baseball pitcher. Clinical Orthopedics, 67, 116123.CrossRefGoogle ScholarPubMed
Luckey, M.M., Meier, D.E., Mandeli, J.P., DaCosta, M.C., Hubbard, M.L., & Goldsmith, S.J. (1989). Radial and vertebral bone density in white and black women: evidence for racial differences in premenopausal bone homeostasis. Journal of Clinical Endocrinology and Metabolism, 69, 762770.CrossRefGoogle ScholarPubMed
Mazess, R.B. (1982). On aging bone loss. Clinical Orthopedics, 165, 239252.CrossRefGoogle Scholar
Mazess, R.B., Barden, H.S., Drinka, P.J., Bauwens, S.F., Orwoll, E.S., & Bell, N.H. (1990). Influence of age and body weight on spine and femur bone mineral density In U.S., white men. Journal of Bone and Mineral Research, 5, 645652.CrossRefGoogle ScholarPubMed
Mazess, R.B., Barden, H.S., Ettinger, B., Johnston, C, Dawson-Hughes, B., Baran, D., Powell, M., & Notelovitz, M. (1987). Spine and femur density using dual photon absorptiometry in US white women. Bone and Mineral, 2, 211219.Google ScholarPubMed
Orwoll, E.S., Oviatt, S.K., & Mann, T. (1990). The impact of osteophytic and vascular calcifications on vertebral mineral density measurements in men. Journal of Clinical Endocrinology and Metabolism, 70, 12021207.CrossRefGoogle ScholarPubMed
Pocock, N., Eisman, J., Gwinn, T., Sambrook, P., Kelly, P., Freund, J., & Yeates, M. (1989). Muscle strength, physical fitness and weight but not age predict femoral neck bone mass. Journal of Bone and Mineral Research, 4, 441448.CrossRefGoogle Scholar
Pocock, N.A., Eisman, J.A., Yeates, M.G., Sambrook, P.N., & Eberl, S. (1986). Physical fitness is a major determinant of femoral neck and lumbar spine bone mineral density. Journal of Clinical Investigation, 78, 618621.CrossRefGoogle Scholar
Ribot, C., Tremollieres, F., Pouilles, J.M., Louvet, J.P., & Guiraud, R. (1988). Influence of the menopause and aging on spinal density in French women. Bone and Mineral, 5, 8997.CrossRefGoogle ScholarPubMed
Riggs, B.L., Wahner, H.W., Seeman, E., Offord, K.P., Dunn, W.L., Mazess, R.B., Johnson, K.A., & Melton, L.J. (1982). Changes in bone mineral density of the proximal femur and spine with aging. Journal of Clinical Investigation, 70, 716723.CrossRefGoogle ScholarPubMed
Slemenda, C.W., Hui, S.L., Williams, C.J., Christian, J.C., Meaney, F.J., & Johnston, C.C. (1990). Bone mass and anthropometric measurements in adult females. Bone and Mineral, 11, 101109.CrossRefGoogle ScholarPubMed
Stevenson, J.C., Lees, B., Devenport, M., Cust, M.P., & Ganger, K.F. (1989). Determinants of bone density in normal women: risk factors for future osteoporosis? British Medical Journal, 298, 924928.CrossRefGoogle ScholarPubMed
Webber, C.E. (1989). Some factors which influence the evaluation of a dual photon measurement of lumbar spine bone mineral mass. Journal of the Canadian Association of Radiologists, 40, 8791.Google ScholarPubMed
Webber, C.E. (1989). Some factors which influence the evaluation of a dual photon measurement of lumbar spine bone mineral mass. Journal of the Canadian Association of Radiologists, 40, 8791.Google ScholarPubMed