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Bone involution decrease in exercising middle-aged women (1984)

Smith, Everett L. ; Smith, Patricia E. ; Ensign, Cynthia J. ; [et al.]

Springer

Calcified tissue international 36 (1984), S. S129

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ISSN: 1432-0827

Keywords: Bone mass ; Exercise ; Aging women ; Osteoporosis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Physical activity is an important stimulus in the prevention of bone involution. Bilateral bone mineral mass and width of the radius, ulna, and humerus were measured by single photon absorptiometry on 200 women between the ages of 35 and 65 over a 3–4 year period. Two groups were formed: 80 in a control group and 120 in a physical activity group exercising 45 min/day, 3 days/week. The control and physical activity groups were similar in age, height, weight, and level of physical fitness at the beginning of the study. The control group lost bone mineral mass at a rate similar to that of the general population. The left radius bone mineral declined 2.44% per year. Similar rates of decline were observed in the other bones measured. The physical activity group increased in fitness by 13% in the first year of the study. The bone mineral mass of the exercise group declined the first year and then increased; thereby the bone mineral data for the exercise group was analyzed in two sets. During the first year of the program, a decline of 3.77% in bone mineral mass of the left radius, a significantly greater loss than that of the control group, was observed. Decline rates were similar in the other bones measured. In the second and third years, bone mineral mass of the left radius increased by 1.39% per year, and the rate of change was significantly different from that of the control group. There were similar increases in the other bones measured. The data from this study support the importance of physical activity in the prevention of bone mineral loss in the aging female.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02406146

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Continuous alendronate treatment throughout growth, maturation, and aging in the rat results in increases in bone mass and mechanical properties (1993)

Guy, J. A. ; Shea, Marie ; Peter, C. P. ; [et al.]

Springer

Calcified tissue international 53 (1993), S. 283-288

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ISSN: 1432-0827

Keywords: Osteoporosis ; Biomechanics ; Bisphosphonates ; Bone resorption ; Aging

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Summary Alendronate (4-amino-1-bydroxybutylidene bisphosphonate) is a novel amino bisphosphonate that is being developed for the treatment of osteolytic bone disorders such as osteoporosis. As part of a 2-year carcinogenicity study, we investigated the morphologic and biomechanical effects of long-term alendronate (ALN) therapy, given throughout skeletal growth, maturation, and aging, on rat vertebrae and femora. Three treatment groups, receiving either deionized water, low- (1.00 mg/kg), or high-dose (3.75 mg/kg) ALN, were given daily oral treatment for 105 weeks. Results from mechanical tests indicate that ALN therapy (in males) increased the vertebral ultimate compressive load by 96% in the high- and 51% in the low-dose groups when compared with controls. ALN similarly increased the male ultimate femoral bending load by 59% in the high- and 31% in the low-dose groups. Vertebrae and femora from female rats treated with both high- and low-dose ALN also failed at significantly higher loads than controls, but no differences were seen between low- and high-dose groups. Morphologic analysis of both male and female vertebrae revealed a dose-dependent increase in area fraction of bone. Rats receiving high-dose ALN had a greater area fraction of bone than those receiving low doses. Both groups were greater than controls. Thus, the administration of ALN resulted in increased femoral cortical bending load when compared with control animals, as well as increased vertebral ultimate compressive load commensurate with a dose-related preservation of vertebral bone. We therefore conclude that long-term ALN treatment preserves the structural and morphologic properties of both cortical and trabecular bone in rats and, with further study, may provide a valuable alternative to current therapy for the treatment of osteoporosis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01320915

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