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The peak bone mass of Hawaiian, Filipino, Japanese, and white women living in Hawaii (1994)

Davis, J. W. ; Novotny, R. ; Ross, P. D. ; [et al.]

Springer

Calcified tissue international 55 (1994), S. 249-252

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ISSN: 1432-0827

Keywords: Bone mass ; Ethnicities ; Hawaiian ; Filipino ; Japanese ; White

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Abstract Our study compares the bone mass of Hawaiian, Filipino, Japanese, and white women living in Oahu, Hawaii. Eligible women ranged in age from 25 to 34; all had bone mass measurements at the spine, calcaneus, and proximal and distal radius. Their average bone mineral density (BMD) remained stable with age at all four bone sites, indicating that the age range 25–34 may represent the peak bone mass. Bone mass varied, however, between ethnicities; differences in BMD up to 11% were observed. The Hawaiian women had the greatest BMD, and whites had the second greatest BMD at the spine and calcaneus. The Japanese most frequently had the lowest BMD. Differences in body size partly explained the differences; most ethnic differences were reduced or eliminated after adjusting for height and weight. At the spine, the ethnic differences for BMD were also apparent with BMC and with vertebral area. Hawaiian and white women had greater values than Japanese or Filipino women. Differences at the proximal radius resembled the spine, except that whites had the widest proximal widths. The results were more complex for the distal radius. At the distal radius whites had the lowest BMD of the four ethic groups. The difference between whites and Hawaiians derived from the greater bone mineral content (BMC) of the Hawaiian women. By contrast, the difference between whites and the Japanese and Filipinos derived from the wider distal widths of the white women. Compared with the Japanese and Filipino women, the white women appeared to disperse their BMC at the distal radius across a wider bone width. Such differences in bone distributions might lead to an altered risk of distal radius (wrist) fractures. Within ethnicities there was marked variation among individuals in bone mass. At the extremes, women differed by 50–100% or more within all four ethnic groups.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00310400

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When should bone density measurements be repeated? (1994)

He, Y. F. ; Ross, P. D. ; Davis, J. W. ; [et al.]

Springer

Calcified tissue international 55 (1994), S. 243-248

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ISSN: 1432-0827

Keywords: Osteoporosis ; Bone density ; Longitudinal studies ; Statistical models ; Decision models

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Abstract We calculated how long to wait before repeating bone mineral density (BMD) measurements to reassess fracture risk. Correlation results from serial measurements of 495 postmenopausal Japanese-American women were used to estimate 95% confidence intervals (CI) for future BMD. After 7 years of follow-up, BMD correlations with the initial measurement ranged between 0.81 and 0.94, depending on age group and measurement site. In this analysis, the period between measurements was defined as the time required for the lower 95% CI to fall below the BMD value corresponding to doubling of fracture risk. Progressive bone loss causes fracture risk to double after 10 years, on average. However, the 95% CIs indicate that a second BMD measurement will detect risk doubling after only 2 or 3 years for some women. For untreated, early postmenopausal women, the period between measurements was approximately 2–5 years for the radius and 4–6 years for the calcaneus, depending on the initial BMD level. The period was approximately 1 year longer for women age 60 and older. Treatments that halve the bone loss rate would increase the period by 1–3 years. In the absence of a second measurement of BMD, the CI will continue to expand with time, corresponding to a wider range in risk between individuals, and a greater proportion of women will be at increased fracture risk. Obtaining a second BMD measurement pinpoints the patient's status within the precision of the measurement. We conclude that repeated BMD measurements will provide a more accurate estimate of fracture risk than a single, baseline measurement.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00310399

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Spine fracture risk is predicted by non-spine fractures (1994)

Wasnich, R. D. ; Davis, J. W. ; Ross, P. D.

Springer

Osteoporosis international 4 (1994), S. 1-5

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ISSN: 1433-2965

Keywords: Bone mass ; Bone density ; Fracture incidence ; Fracture prevalence ; Longitudinal studies ; Risk factors

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract A prospective cohort study of 1098 postmenopausal Japanese-American women evaluated the relationship between baseline non-spine fractures and new (incident) spine fractures. At the baseline examination in 1981, prevalent non-spine fractures were ascertained by interview, and prevalent spine fractures by radiograph. Bone mass measurements of the distal radius, proximal radius, calcaneus (1981), the lumbar spine (1984) were obtained and repeated at 1- to 2-year intervals. Women with existing non-spine fractures have a threefold greater risk of subsequent spine fractures, independent of bone mass, and independent of the known association between prevalent spine fractures and subsequent spine fractures. Women with both a prevalent non-spine fracture and low bone mass (50th percentile or lower) have an eightfold greater risk of new spine fractures compared with women above the 50th percentile of bone mass and no prevalent fractures. In addition to low bone mass, both prevalent spine fractures and prevalent non-spine fractures are strong risk factors for subsequent spine fracture. These data suggest that not all osteoporotic risk factors are expressed via bone mass, and that other, unmeasured risk factors, such as bone quality defects, may explain these results. In clinical terms, women with both prevalent fractures and low bone mass should be recognized as being at extremely high risk, and treatment potency should be commensurate with this level of risk.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02352253

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Relation of height and weight to the regional variations in bone mass among Japanese-American men and women (1995)

Davis, J. W. ; Ross, P. D. ; Wasnich, R. D.

Springer

Osteoporosis international 5 (1995), S. 234-238

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ISSN: 1433-2965

Keywords: Anthropometry ; Bone mass ; Height ; Osteoporosis ; Weight

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We examined the magnitude of regional variations in bone mass among elderly, Japanese-American men and women. All subjects had bone measurements at the calcaneus, and at the distal and proximal radius sites. A subset of the women had, in addition, spine bone mass measurements. To provide a common measurement scale, the bone measurements were converted to age- and sex-specificZ-scores. TheZ-scores between pairs of bone sites were then subtracted to yield the differences in bone mass between bone sites (expressed inZ-score units). For most individuals the differences were less than 1.0Z-score; however, 12%–20% of the differences were at least 1Z-score apart. The most similar sites were the distal and proximal radius: different regions within the same bone. Among the other bone pairs, the calcaneus and spine were the most similar to one another. The magnitudes of the differences in bone mass were associated with height and weight. Heavier subjects, for instance, had greater calcaneus than radius bone mass measurements, and greater spine than radius measurements. The spine and calcaneus are more weight-bearing than the radius sites. Associations were observed up to 0.25Z-score per 10 kg difference in weight. Height was associated with bone mass differences in an opposite direction to weight. Taller subjects had greater bone mass at the radius sites than expected from their calcaneus or spine bone measurements (0.1 to 0.2Z-score difference per 5 cm difference in height). Bone width partly explained the associations with height; that is, adjusting the radius widths reduced the associations with height. Overall, our results indicate that small to moderate differences between bone sites were common among our study population, and that the magnitudes of the differences were associated with height and weight.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01774012

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