Bone mineral density-independent association of quantitative ultrasound measurements and fracture risk in women

Osteoporotic fracture is considered to result from reduced bone strength and to be related to decreased bone mass and impaired bone architecture. Quantitative ultrasound measurements (QUS) of bone, that may reflect certain architectural aspects of bone, have been shown to be associated with fracture, but it is not clear whether the association is independent of bone mineral density (BMD). This study was designed to examine the contributions of cortical QUS and BMD measurements to the prediction of fracture risk in postmenopausal Caucasian women. Speed of sound (SOS) at the distal radius, tibia, and phalanx (Sunlight Omnisense) and BMD at the lumbar spine and femoral neck (GE Lunar) were measured in 549 women, aged 63.2 ± 12.3 years (mean ± SD; range, 49–88 years), including 77 fracture cases. Lower SOS at the distal radius, tibia, and phalanx, which were correlated with each other, were associated with increased risk of fracture. Independent predictors of fracture risk (in multivariate analysis) were distal radius SOS (OR per SD = 1.8; 95% CI, 1.3–2.4), femoral neck BMD (OR per SD = 1.9; 95% CI, 1.4–2.4), and age (OR per 5 years = 1.2; 95% CI, 1.0–1.5). Approximately 30% of the women had distal radius SOS T-scores <–2.5; however, only 6.6% of women had both BMD and SOS T-scores <–2.5. Among the 77 fracture cases, only 14 (18.2%) had both BMD and QUS T-scores below –2.5. These data in postmenopausal women suggest that speed of sound at the distal radius was associated with fracture risk, independent of BMD and age. The combination of QUS and BMD measurements may improve the accuracy of identification of women who will sustain a fracture.     

Multisite quantitative ultrasound for the prediction of fractures over 5 years of follow‐up: The Canadian Multicentre Osteoporosis Study

This study assessed the ability of multisite quantitative ultrasound (mQUS) to predict fracture over a 5‐year follow‐up. Participants were a subset of the Canadian Multicentre Osteoporosis Study. mQUS‐assessed speed of sound (SOS in m/s) at three sites (distal radius, tibia, and phalanx) and extensive questionnaires were completed, after which participants were followed for 5 years and incident fractures recorded. Two survival analyses were completed for each site—a univariate analysis and an adjusted multivariate analysis controlling for age, antiresorptive use, femoral neck bone mineral density, number of diseases, previous fractures, body mass index (BMI), parental history of hip fracture, current smoking, current alcoholic drinks >3 per day, current use of glucocorticoids, and rheumatoid arthritis diagnosis (variables from the FRAX 10‐year fracture risk assessment tool). The unit of change for regression analyses was one standard deviation for all measurement sites, specific to site and sex. Separate analyses were completed for all clinical fractures, nonvertebral fractures, and hip fractures by sex. There were 2633 women and 1108 men included, and they experienced 204 incident fractures over 5 years (5.5% fractured). Univariate models revealed statistically significant (p < 0.05) predictive ability of mQUS for all three measurement sites for women alone for all three fracture types (one standard deviation decrease in SOS was associated with a 52% to 130% increase in the risk of fracture), but not for the men's group. The adjusted model found that measures at the distal radius and tibia in the women's group could significantly (p < 0.05) predict all clinical fractures and nonvertebral fractures within the next 5 years (one standard deviation decrease in SOS was associated with a 25% to 31% increase in the risk of fracture). mQUS provided significant 5‐year clinical fracture prediction in women, independent of bone mineral density and other significant risk factors for fracture, when measured at the distal radius and tibia sites.     

Multisite Quantitative Ultrasound: Precision, Age- and Menopause-Related Changes, Fracture Discrimination, and T-score Equivalence with Dual-Energy X-ray Absorptiometry

This study evaluated the clinical utility of a new multisite ultrasound device capable of measuring speed of sound (SOS) at the phalanx, radius, tibia and metatarsal. The in vitro and in vivo short- and long-term precision were evaluated, reference data were collected for 409 healthy white women (236 premenopausal and 173 postmenopausal), and age and menopause related changes were calculated using linear regression. Fracture discrimination was evaluated using 109 women with vertebral fractures and the age-adjusted odds ratios calculated for each standard deviation decrease in SOS measurement. Correlations between SOS measurements and spine and femur bone mineral density (BMD) were calculated. T-score equivalence with BMD was also investigated together with the prevalence of osteoporosis as defined by the WHO criteria. The in vivo short-term precision standardized in T-score units ranged from 0.14 to 0.33 and long-term standardized precision was 0.35–0.65. Postmenopausal age-related bone loss expressed as the annual change in T-score ranged from 0.040 to 0.089 for SOS and 0.053 to 0.066 for BMD, whilst menopause-related annual loss ranged from 0.036 to 0.094 for SOS and 0.050 to 0.074 for BMD. Correlations between the different SOS sites ranged from r= 0.24 to 0.55, and between SOS and BMD from r= 0.12 to 0.47. The odds ratio (and 95% confidence intervals) for fracture per 1 SD decrease in SOS were 2.0 (1.22 to 3.23) for the phalanx; 1.5 (1.01 to 2.24) for the metatarsal; 1.4 (1.03 to 1.99) for the radius and 1.2 (0.87 to 1.66) for the tibia. Odds ratios for BMD in the same population ranged from 2.6 to 4.8 (1.70 to 8.29). The prevalence of osteoporosis as defined by T= <–2.5 in the age range 60–69 ranged from 7.1% to 20.6% for SOS and 6.4% to 12.1% for BMD. In conclusion, this study demonstrated that multisite ultrasound has adequate precision for investigating skeletal status, is capable of differentiating between pre- and postmenopausal women and women with vertebral fractures, has a T-score equivalence similar to that of dual-energy X-ray absorptiometry (DXA), and appears to be a promising new technique for evaluating skeletal status at clinically relevant sites. Received: 11 August 2000 / Accepted: 14 December 2000     

Ultrasound velocity of the tibia in normal german women and hip fracture patients

One of the latest developments in quantitative ultrasound (QUS) is the measurement of the speed of sound (SOS) of cortical bone of the midtibia. To determine the diagnostic validity of this method we measured 150 healthy women aged 22–94 years. Additionally, we report on first results of patients with hip fracture. Precisionin vivo of the tibial QUS expressed as the percentage coefficient of variation (CV) was 0.39% for the first day and 0.45% after repositioning the second day (mean CV=0.42%). No significant dependency of tibial SOS was found with weight, height, and body mass index in pre- and postmenopausal women. There was a significant decline of SOS with age in postmenopausal women (SOS=4225–5.3 age, r=−0.46,P<0.001), whereas premenopausal women showed no decline (SOS=3906+1.3 age, r=0.13, ns) Mean SOS values of premenopausal women were significantly higher than those of postmenopausal women (3960±78.7 m/second and 3898±120 m/second, respectively,P<0.001). Postmenopausal women on estrogen substitution had significantly higher mean tibial SOS values than age-comparable postmenopausal women without estrogen substitution (3980±99 m/second and 3869±100 m/second, respectively,P<0.001). Significant difference between age-matched healthy women, n=11, and hip fracture patients, n=13, expressed as z-score of −1.4 SD was found. In conclusion, tibial QUS declines with age and detects higher values in premenopausal women and postmenopausal women on estrogen substitution and lower values in hip fracture patients. Further prospective studies are needed to clarify its role in fracture risk assessment.     

Calcaneal ultrasound predicts early postmenopausal fractures as well as axial BMD. A prospective study of 422 women

Low calcaneal ultrasound measurement (quantitative ultrasound, QUS) has been shown to predict fractures in elderly women. However, only a few studies have examined its ability to predict perimenopausal and early postmenopausal fractures. We conducted a prospective population-based cohort study to assess the capability of QUS as compared to axial BMD measurement to predict early postmenopausal fractures at that age. Four hundred and twenty-two women (mean age 59.6, range 53.7–65.3) from the Kuopio Osteoporosis Risk Factor and Prevention Study (OSTPRE) were randomly chosen to undergo a calcaneal ultrasound measurement. In all, 9.4% of these women were premenopausal at the time of measurement. Thirty-two follow-up fractures were reported during the mean follow-up of 2.6 years (SD 0.7). These were validated with patient record perusal. Broadband ultrasound attenuation (BUA), speed of sound (SOS) and stiffness index (SI) were significantly lower among women with than without fracture (P-values 0.028, 0.001 and 0.001, respectively). Mean T-score adapted from SI was –1.5 (95% CI –1.7 to –1.2) for fracture group and –1.0 (95% CI –1.1 to –0.9) for the non-fracture group. All QUS measurements predicted fractures even after adjusting for age, weight, height, previous fracture history, femoral neck BMD and use of hormone replacement therapy according to Cox regression. The adjusted hazard ratios (HR, 95% confidence interval) of a follow-up fracture for a 1 SD decrease were 1.80 (1.27–2.56), 1.72 (1.21–2.45) and 1.43 (1.01–2.03) for SOS, SI and BUA, respectively. Similarly, the adjusted HR for a 1 SD decrease of spinal BMD was 1.27 (0.85–1.94) and for that of femoral neck BMD 1.14 (0.78–1.70). In receiver operator analyses, the area under the curve (AUC) was greatest for QUS measurements: SOS (AUC=0.68), stiffness (AUC=0.67), BUA (AUC=0.62) and least for lumbar BMD (AUC=0.56), while and femoral neck BMD (AUC=0.59). The difference between AUCs was statistically significant between SI and lumbar BMD (P=0.02, Duncans P=0.07). We conclude that low calcaneal QUS predicts early postmenopausal fractures as well as or even better than axial BMD.     

Multisite Quantitative Ultrasound: Colles’ Fracture Discrimination in Postmenopausal Women

Distal forearm fractures are the most common perimenopausal fracture and are generally associated with osteoporosis. The aim of this study was to evaluate the capability of speed of sound (SOS) measurements in cortical bone at the phalanx, radius, tibia and metatarsal to discriminate Colles’ fracture cases from controls in postmenopausal women and to compare this with bone mineral density (BMD) measurements obtained by dual-energy X-ray absorptiometry (DXA). Sixty-three postmenpausal Colles’ fracture cases and 191 postmenopausal controls had SOS measurements of the radius, tibia, phalanx and metatarsal using a semi-reflection ultrasound technique and BMD measurements of the lumbar spine and proximal femur using DXA. The age-adjusted odds ratios (ORs) for fracture for the SOS measurement sites were 1.50 [95% CI 1.07–2.10] for the radius, 1.23 [0.86-1.76] for the tibia, 1.85 [1.06–3.23] for the phalanx and 1.74 [1.12–2.71] for the metatarsal site. For the BMD measurements the ORs were 1.95 [1.34–2.85] for the lumbar spine, 2.21 [1.43–3.40] for the femoral neck and 2.62 [1.69–4.08] for the total hip. The benefits of combining sites either by taking their average Z-score or by using the manufacturer’s ORI algorithm were evaluated. The two methods yielded similar results and the ORs for the combination of the radius and phalanx were 2.00 [1.21–3.33], for the radius and metatarsal 1.67 [1.05–2.67], for the phalanx and metatarsal 1.86 [1.11–3.08] and for the radius, phalanx and metatarsal 1.81 [1.07–3.06]. Combinations of DXA sites gave 2.22 [1.44–3.41] for the lumbar spine and femoral neck and 2.41 [1.57–3.70] for the lumbar spine and total hip. In conclusion, semi-reflection ultrasound measurements at the radius, phalanx or metatarsal demonstrated an ability to discriminate fracture cases from controls in postmenopausal Colles’ fracture patients, although the odds ratios were lower than with spine and femur BMD. Received: 6 July 2001 / Accepted: 11 December 2001     

Quantitative Ultrasound and Symptomatic Vertebral Fracture Risk in Chinese Women

Quantitative ultrasound (QUS) is emerging as a simple, inexpensive and noninvasive method for assessing bone quality and assessing fracture risk. We assessed the usefulness of a contact calcaneal ultrasonometer by studying normal premenopausal women (group I, n= 53), normal postmenopausal women (group II, n= 198), and osteoporotic women without (group III, n= 141) and with vertebral fractures (group IV, n= 53). The osteoporotic subjects had a T-score of the spine or hip neck bone mineral density (BMD) <−2.5 based on the local Chinese peak young mean values. When compared with postmenopausal controls, mean broadband ultrasound attenuation (BUA), speed of sound (SOS), and quantitative ultrasound index (QUI) were 26%, 2.1% and 25% lower in women with vertebral fractures (p all <0.005). The correlation coefficients between QUS parameters and BMD of the spine and hip ranged between 0.4 and 0.5. The ability of the QUS to discriminate between patients groups was determined based on the mean value of normal premenopausal women in group I. The mean T-score for women with fractures was −2.87 ± 1.02 for BUA, −2.54 ± 0.79 for SOS, −3.17 ± 0.70 for QUI, −2.65 ± 0.86 for L2–4 BMD and −2.53 ± 0.66 for hip neck BMD. After adjustment for age and body mass index, the odds ratio of vertebral fracture was 1.71 (95% CI 1.2–2.6) for each 1 SD reduction in BUA, 2.72 (1.3–5.3) for SOS, 2.58 (1.4–4.6) for QUI, 2.33 (1.6–3.3) for L2–4 BMD, 2.09 (1.37–3.20) for femoral neck BMD and 1.88 (1.34–2.92) for total hip BMD. The association between the QUS parameters and vertebral fracture risk persisted even adjustment for BMD. The area under the receiver operating characteristic curve for BUA for vertebral fracture was 0.92, for SOS, QUI, L2–4 BMD and femoral neck BMD was 0.95, and for total hip was 0.91. Received: 7 January 1999 / Accepted: 18 May 1999     

Comparison of a simple clinical risk index and quantitative bone ultrasound for identifying women at increased risk of osteoporosis

Osteoporosis is a growing problem in Asia, and early identification of at risk subjects for preventive measures is likely the most cost-effective method for managing this disease in developing countries. Patients with low bone mineral density (BMD) have a high risk of future fracture. However, access to BMD measurements is limited in many areas of Asia, and inexpensive methods of targeting high-risk patients for BMD measurements would be valuable. We compared two methods, a simple clinical risk assessment tool, the Osteoporosis Self-assessment Tool for Asians (OSTA), and quantitative bone ultrasound (QUS) in identifying subjects with low BMD by DXA in 722 southern Chinese postmenopausal women recruited from the community in Hong Kong. Using the published cutoff value of –1 (versus 0 or higher) for OSTA to identify subjects with femoral neck BMD T-score –2.5, basing on our local population peak young mean value, the sensitivity and specificity was 88% and 54% respectively. The optimal cutoff T-score of –2.35 for QUS yielded sensitivity and specificity values of 81% and 65%, respectively. The AUC for QUS was 0.78, which was not significantly different from that of 0.80 for OSTA. Both OSTA and QUS correlated significantly with BMD at the femoral neck (0.62 and 0.36, respectively, P both <0.001). When these cut-off values were used to identify subjects with either lumbar spine or femoral neck BMD T-score –2.5, the sensitivity and specificity was 79% and 60%, respectively, for OSTA, and 69% and 70%, respectively, for QUS. Combining QUS with OSTA improved the sensitivity to 91%, but the specificity was reduced to 44%. We conclude that the simple clinical risk assessment tool OSTA is a free and effective method for identifying subjects at increased risk of osteoporosis, and its use could facilitate the appropriate and more cost-effective use of bone densitometry in developing countries.     

Contact Quantitative Ultrasound: An Evaluation of Precision, Fracture Discrimination, Age-Related Bone Loss and Applicability of the WHO Criteria

The aim of this study was to assess a dry calcaneal quantitative ultrasound (QUS) device by examining: (i) short- and long-term precision; (ii) the ability of the ultrasound parameters to identify women with vertebral fractures; (iii) age- and menopause-related bone loss; (iv) applicability of the WHO criteria in scan interpretation. The study group consisted of 422 healthy women with no risk factors associated with osteoporosis (227 premenopausal and 195 postmenopausal) and 93 women with one or more vertebral fractures. All women had calcaneal QUS and bone mineral density (BMD) measurements of the lumbar spine and hip performed. Broadband ultrasound attenuation (BUA) and speed of sound (SOS) measurements in the heel were combined and expressed as estimated heel BMD. Short-term precision studies yielded coefficient of variations of 0.3% for SOS, 4% for BUA and 3.3% for estimated heel BMD. Standardized short-term precision values were approximately 0.2 SD. Long-term standardized precision errors ranged from 0.17 to 0.38 SD. All the QUS and BMD measurement parameters showed significant negative relationships with age in the postmenopausal group. Annual losses were 0.35 dB/MHz per year for BUA, 0.56 m/s per year for SOS and 0.002 g/cm² per year for estimated heel BMD. All the QUS and BMD parameters were able to discriminate between healthy postmenopausal women and women with vertebral fracture. Age-adjusted odds ratios for each SD decline in QUS measurements were 3.63, 5.25 and 4.79 for BUA, SOS and estimated heel BMD respectively. Corresponding odds ratios for BMD at the lumbar spine, femoral neck and total hip were 2.39, 2.51 and 2.95 respectively. When the QUS and BMD parameters were expressed as T-scores, estimated heel BMD showed the least age-related decline, while femoral neck BMD displayed the greatest decrease with age. The mean T-score and prevalence of osteoporosis (T<−2.5) for a Caucasian woman aged 60–65 years were −1.35 and 21% respectively for the lumbar spine compared with −0.59 and 2% for estimated heel BMD. In conclusion, this study revealed that contact ultrasound can detect age- and menopause-related influences on bone status and was able to discriminate between healthy individuals and women with vertebral fracture. However, the widely accepted threshold of a T-score of less than −2.5 for the definition of osteoporosis may need modifying for the interpretation of QUS scans. Received: 8 February 1999 / Accepted: 5 May 1999     

Three-year longitudinal study with quantitative ultrasound at the hand phalanx in a female population

A longitudinal study was conducted to assess the value of quantitative ultrasound (QUS) measurement in predicting the risk of fracture and to evaluate how QUS parameters change with ageing and the climacteric. A group of 211 female subjects underwent assessment by QUS at the distal metaphysis of the first phalanx of the last four fingers of the hand on two occasions 3 years apart. The subjects were selected from outpatients attending the orthopaedic clinic, provided they were not affected by metabolic disease or under treatment with drugs known to interfere with bone metabolism. In vivo the coefficient of variation and the standardized coefficient of variation of the QUS device were respectively 0.5% and 3.5%. The correlation between the values of the amplitude-dependent speed of sound (AD-SoS) in the two measurements wasr=0.92. In 77.3% of the subjects during the observation period we recorded a reduction in AD-SoS. During the study 22 fractures were observed in peripheral sites, 8 of which were associated with ‘low-energy trauma’. By multiple logistic regression analysis we found that the relative risk of fracture for a 1 SD reduction in AD-SoS was 1.5 (95% CI 1.1–1.7) (p<0.03). The percentage of low-energy fractures significantly increased among those subjects with an AD-SoS value lower than 1850 m/s (T-score <−3.5) at the first examination (p<0.0001). QUS investigation proved to be especially sensitive to hormonal changes associated with the climacteric: we observed a mean decrease of 56 m/s in the AD-SoS for women who entered the menopause between the first and the second QUS test (average time since menopause 2 years), as against 10 m/s in subjects remaining premenopausal. In a group of 146 subjects with ‘normal’ AD-SoS at the first examination, we observed a significant reduction in AD-SoS only after 40 years of age. This study demonstrates that measurement of the AD-SoS at the phalanx is reproducible, can be employed to assess the risk of fracture, and is able to detect age-related alterations in bone tissue.     

The relationship of an Asian-specific screening tool for osteoporosis to vertebral deformity and osteoporosis

An Asian-specific screening tool for osteoporosis, the so-called OSTA index, was devised and is likely to be helpful in determining which postmenopausal women need bone mineral density (BMD) measurement. Besides BMD, prevalent vertebral fracture is a strong risk factor for future fractures. However, the relationship of the OSTA index to prevalent vertebral fractures is currently unknown. In this study, we evaluated the performance of the OSTA index in elderly Thai women and assessed the relationship of the index to prevalent vertebral deformities. Subjects consisted of 741 healthy Thai elderly women. BMD was measured by DEXA and T-score ≤2.5 SD is defined as osteoporosis. Prevalent vertebral deformities were determined by morphometric X-ray absorptiometry. OSTA index >−1 is classified as having low risk of osteoporosis, −1 to −4 as intermediate risk and, <−4 as high risk. Data were expressed as mean ± SD. The mean age and body weight of subjects were 67 ± 4.8 years and 57.8 ± 8.7 kg, respectively. The area under the ROC curve for OSTA index to identify osteoporosis at femoral neck and lumbar spine was 0.80 and 0.72, respectively. Femoral neck osteoporosis was found in 40.4%, 6.3%, and 2.4% of subjects with high-risk, intermediate-risk, and low-risk OSTA indexes, respectively. With regard to vertebral deformities, the area under the ROC curve relating OSTA index to vertebral deformities was 0.70 (P < 0.001). The prevalence of vertebral deformities in according to the OSTA index was 19.2% in the high-risk, 7.9% in the intermediate-risk, and 2.8% in the low-risk group. We concluded that the OSTA index can be of assistance in the selection of postmenopausal women for BMD measurement. In addition, this index may be helpful in the identification of postmenopausal women with vertebral deformity and those who need antifracture treatments.     

Comparison of three bone ultrasounds for the discrimination of subjects with and without osteoporotic fractures among 7562 elderly women.

Bone ultrasound measures (QUSs) can assess fracture risk in the elderly. We compared three QUSs and their association with nonvertebral fracture history in 7562 Swiss women 70-80 years of age. The association between nonvertebral fracture was higher for heel than phalangeal QUS. INTRODUCTION: Because of the high morbidity and mortality associated with osteoporotic fractures, it is essential to detect subjects at risk for such fractures with screening methods. Because quantitative bone ultrasound (QUS) discriminated subjects with osteoporotic fractures from controls in several cross-sectional studies and predicted fractures in prospective studies, QUS could be more practical than DXA for screening. MATERIAL AND METHODS: This cross-sectional and retrospective multicenter (10 centers) study was performed to compare three QUSs (two heel ultrasounds: Achilles+ [GE-Lunar] and Sahara [Hologic]; the phalanges: ultrasound DBM sonic 1200 [IGEA]) for determining by logistic regression nonvertebral fracture odds ratio (OR) in a sample of 7562 Swiss women, 75.3 +/- 3.1 years of age. The two heel QUSs measured the broadband ultrasound attenuation (BUA) and the speed of sound (SOS). In addition, Achilles+ calculated the stiffness index (SI) and the Sahara calculated the quantitative ultrasound index (QUI) from BUA and SOS. The DBM sonic 1200 measured the amplitude-dependent SOS (AD-SOS). RESULTS: Eighty-six women had a history of a traumatic hip fracture after the age of 50, 1594 had a history of forearm fracture, and 2016 had other nonvertebral fractures. No fracture history was reported by 3866 women. Discrimination for hip fracture was higher than for the other nonvertebral fractures. The two heel QUSs had a significantly higher discrimination power than the QUSs of the phalanges, with standardized ORs, adjusted for age and body mass index, ranging from 2.1 to 2.7 (95% CI = 1.6, 3.5) compared with 1.4 (95% CI = 1.1, 1.7) for the AD-SOS of DBM sonic 1200. CONCLUSION: This study showed a high association between heel QUS and hip fracture history in elderly Swiss women. This could justify integration of QUS among screening strategies for identifying elderly women at risk for osteoporotic fractures.     

Can the WHO Criteria for Diagnosing Osteoporosis be Applied to Calcaneal Quantitative Ultrasound?

With the increasing number of quantitative ultrasound (QUS) devices in use worldwide it is important to develop strategies for the clinical use of QUS. The aims of this study were to examine the age-dependence of T-scores and the prevalence of osteoporosis using the World Health Organization Study Group criteria for diagnosing osteoporosis and to examine the T-score threshold that would be appropriate to identify women at risk of osteoporosis using QUS. Two groups of women were studied: (i) 420 healthy women aged 20–79 years with no known risk factors associated with osteoporosis; (ii) 97 postmenopausal women with vertebral fractures. All subjects had dual-energy X-ray absorptiometry (DXA) measurements of the spine and hip and QUS measurements on three calcaneal ultrasound devices (Hologic Sahara, Hologic UBA575+, Osteometer DTUone). A subgroup of 102 (76 on the DTUone) healthy women aged 20–40 years was used to estimate the young adult mean and SD for each QUS and DXA measurement parameter to calculate T-scores. The age-related decline in T-scores for QUS measurement parameters was half the rate observed for the bone mineral density (BMD) measurements. The average T-score for a woman aged 65 years was –1.2 for QUS measurements and –1.75 for the BMD measurements. When osteoporosis was defined by a T-score ≤–2.5 the prevalence of osteoporosis in healthy postmenopausal women was 17%, 16% and 12% for lumbar spine, femoral neck and total hip BMD respectively. When the same definition was used for QUS measurements the prevalence of osteoporosis ranged from 2% to 8% depending on which ultrasound device and measurement parameter was used. Four different approaches, based on DXA-equivalent prevalence rates of osteoporosis, were utilized to examine which T-score threshold would be appropriate for identifying postmenopausal women at risk of osteoporosis using QUS measurements. These ranged from –1.05 to –2.12 depending upon the approach used to estimate the threshold and on which QUS device the measurements were performed, but all were significantly lower than the threshold of –2.5 used for BMD measurements. In conclusion, the WHO threshold of T=–2.5 for diagnosing osteoporosis requires modification when using QUS to assess skeletal status. For the three QUS devices used in this study, a T-score threshold of –1.80 would result in the same percentage of postmenopausal women classified as osteoporotic as the WHO threshold for BMD measurements. Corresponding T-score thresholds for individual measurement parameters on the two commercially available devices were –1.61, –1.94 and –1.90 for Sahara BUA, SOS and estimated heel BMD respectively and –1.45 and –2.10 for DTU BUA and SOS respectively Additional studies are needed to determine suitable T-score thresholds for other commercial QUS devices. Received: 25 June 1999 / Accepted: 29 September 1999     

Quantitative Ultrasound (QUS) of the Heel Predicts Wrist and Osteoporosis-Related Fractures in Women Age 45–75 Years

This study was designed to determine the ability of quantitative ultrasound (QUS) of the heel to predict fracture risk at different sites in postmenopausal women between the ages of 45 and 75 years. Heel QUS was measured at baseline using a Lunar Achilles scanner, and subsequent fractures were identified over 3 yr. The results were analyzed graphically after age adjustment and using Cox's proportional regression to estimate odds ratios for fracture risk; 3180 women were scanned (79% of sample). Sixty-three wrist, 12 hip, 4 vertebral, 7 proximal humerus, 3 pelvic, and 61 other fractures were identified over a mean followup of 31 mo. There was a fivefold difference in numbers of wrist and osteoporosis-related fractures (hip, vertebra, pelvis, and humerus combined) between the lowest and highest quartiles of QUS results adjusted for age. The odds ratios per 1 SD decline in QUS parameters adjusted for age were: wrist fractures BUA = 1.6, SOS = 1.5, stiffness = 1.8, osteoporosis-related fractures BUA = 1.9, speed of sound (SOS) = 1.6, stiffness = 2.2, and other fractures, BUA = 1.0, SOS = 1.1, stiffness = 1.1. When analyzed for each 10-yr age group, the odds ratios were generally higher in the 56-65 yr group than the other decades. In women between 45 and 75 yr, heel QUS can predict wrist and osteoporosis- related fractures at about the same level that dual-energy X-ray absorptiometry (DXA) of various sites can predict wrist fractures. This extends the current evidence that heel QUS can predict hip fracture risk in women over 75 yr to include other fracture sites in younger women. Heel QUS may be useful in the primary care assessment of osteoporotic fracture risk in women after the menopause.     

绝经后妇女骨密度影响因素的相关性分析

目的 探讨沈阳地区绝经后妇女不同部位骨密度值与亚洲人骨质疏松自我筛查工具(OSTA)得分、体表面积(BS)、体重指数（BMI）的关系,判断OSTA评分与绝经后妇女髋关节骨折风险的相关性。方法 采用双能X线骨密度仪测定沈阳地区670例绝经后妇女的骨密度值( BMD),并与OSTA 得分、体表面积、体重指数( BMl)、绝经年限进行Pearson相关性回归分析。应用WHO骨折风险因子评估工具(FRAX)评估绝经后妇女髋关节骨折风险,采用线性图表及Pearson相关性回归分析比较OSTA评分与绝经后妇女髋关节骨折风险是否存在相关性。结果 骨密度与OSTA评分、体表面积、体重指数呈线性正相关,相关性由大到小分别为OSTA评分、体表面积、体重、身高、BMI、年龄、绝经期、肥胖度;骨密度与绝经年限呈线性正相关趋势;OSTA评分与髋关节骨折风险呈负相关。结论 OSTA得分能较好的反映出绝境后妇女骨密度减低的趋势及程度,同时也能预测绝经后妇女髋关节骨折风险的程度,在临床中应对OSTA评分较低患者应采取必要的相关性治疗及干预。     

Quantitative Heel Ultrasound in 3180 Women Between 45 and 75 Years of Age: Compliance, Normal Ranges and Relationship to Fracture History

There is growing evidence to support the use of quantitative ultrasound (QUS) to identify fracture risk in late postmenopausal women but few data are available in younger women. In order to address this issue all women between 45 and 75 years of age registered in two general practices in Bournemouth, Dorset, UK were invited to attend for heel QUS. Measurements were made in 79% of the 4018 women identified. The mean QUS results for 5-year age groups were very similar to those from reported reference ranges from North America and the north of England. The odds ratios (95% confidence limits) for self-reported fractures after 45 years per standard deviation of age-adjusted QUS parameters were: broadband ultrasound attenuation (BUA) = 1.40 (1.26–1.56), speed of sound (SOS) = 1.56 (1.41–1.74) and Stiffness = 1.52 (1.37–1.68). The results suggest that QUS is associated with fracture history in early postmenopausal women. Received: 11 March 1997 / Accepted: 12 October 1997     

Hand Ultrasound for Osteoporosis Screening in Postmenopausal Women

There is a need for low-cost screening methods to detect low bone mass (osteopenia or osteoporosis) in postmenopausal women. The utility of quantitative ultrasonography (QUS) of the hand was assessed for osteoporosis screening using the WHO criteria. Bone mineral density (BMD) was measured in 206 postmenopausal Mexican-American women at the total hip and lumbar spine by dual-energy X-ray absorptiometry (DXA). The amplitude-dependent speed of sound (AD-SoS) was measured in the phalanges by QUS. Subjects identified by DXA as having osteopenia or osteoporosis had significantly lower AD-SoS values in comparison with normals. Estrogen users had significantly higher spine and hip BMD and AD-SoS values compared with non-estrogen users. The areas under the receiver operating characteristic (ROC) curves (AUC) for AD-SoS to screen for osteoporosis (T-score ≤−2.5) at the spine or hip were 0.73 for all subjects, 0.74 for estrogen users and 0.68 for non-estrogen users. The AUC for non-estrogen users to screen for osteopenia (T-score −1 to −2.5) was 0.77. Performance comparisons of AD-SoS with SCORE (a risk factor questionnaire) and body weight showed AUC values of 0.73, 0.69 and 0.65, respectively. QUS was the superior screening test when considering both the AUC and the shape of the ROC curves. For non-estrogen users, the group at higher risk for osteoporosis, QUS correctly identified 31% as normal, and 62% as having low bone mass and needing DXA referral; and the remaining 7% were false negatives. These data suggest phalangeal QUS can be effectively used for screening osteoporosis in postmenopausal women. Received: 2 April 1998 / Accepted: 27 July 1999     

A Comparison of the Longitudinal Changes in Quantitative Ultrasound with Dual-Energy X-ray Absorptiometry: The Four-Year Effects of Hormone Replacement Therapy

Quantitative ultrasound (QUS) has been proposed as a tool which can measure both the quantitative and qualitative aspects of bone tissue and can predict the future risk of osteoporotic fractures. However, the usefulness of QUS in long-term monitoring has yet to be defined. We studied a group of early postmenopausal women over a 4-year period. Thirty subjects were allocated to hormone replacement therapy and 30 selected as controls matched for age, years past the menopause (YPM) and bone mineral density (BMD) at the anteroposterior spine (AP spine). The mean age of the subjects was 52.4 years (SD 3.9 years), mean YPM 4.0 years (SD 3.2) and all subjects had a BMD T-score above −2.5 SD (number of standard units related to the young normal mean population). BMD was measured at baseline and annually by dual-energy X-ray absorptiometry (DXA) at the AP spine and total hip, and QUS carried out at the calcaneus, measuring broadband ultrasound attenuation (BUA), speed of sound (SOS) and Stiffness. Mean percentage changes from baseline were assessed at 2 and 4 years. The overall treatment effect (defined as the difference in percentage change between the two groups) was: AP spine BMD, 11.4%; total hip BMD, 7.4%; BUA, 6.4%; SOS, 1.1%; and Stiffness, 10.4% (p<0.01). To compare the long-term precision of the two techniques we calculated the Standardized Precision, which for QUS was approximately 2–3 times that of DXA, for a given rate of change. The ability of each site to monitor response to treatment was assessed by calculating the Treatment Response Index (Treatment Effect/Standardized Precision), which was: AP spine BMD, 10.4; total hip BMD, 3.9; BUA, 3.1; SOS, 0.3; and Stiffness, 4.2. This was then normalized for AP spine BMD (to compare the role of QUS against the current standard, AP Spine BMD), which was: total hip BMD, 0.38; BUA, 0.30; Stiffness, 0.40 (p<0.01); and SOS, 0.03 (NS). In summary, QUS parameters in the early menopause showed a similar rate of decline as AP spine BMD and total hip BMD measured by DXA. Hormone replacement therapy results in bone gain at the AP spine and total hip, and prevents loss in BUA and SOS measured by QUS at the calcaneus. QUS has a potential role in long-term monitoring, although presently the time period to follow individual subjects remains 2–3 times that for DXA, for a given rate of change. Anteroposterior spine remains the current optimal DXA monitoring site due to its greater rate of change and better long-term precision. Received: 20 January 1999 / Accepted: 14 June 1999     

Site-Specific Bone Measurements in Patients with Ankle Fracture

Ankle fracture is one of the most common fractures in adults, particularly postmenopausal women. Few studies have examined the bone mineral density (BMD) and ultrasound properties of bone close to the site of fracture in patients with ankle fracture. The aim of this study was to evaluate these measurements in women with ankle fractures compared with controls. We studied 31 healthy post-menopausal women ages 50–79 years (mean age 63.2 ± 3.3 years) from a population-based group and 31 postmenopausal women ages 52–76 years (mean age 61.2 ± 2.2 years) with an ankle fracture. Distal tibia and fibula BMD were measured by dual-energy X-ray absorptiometry using the Hologic QDR 1000/W densitometer. In addition to total distal and tibia BMD, three subregions were automatically selected: ultradistal, middle and one-quarter regions. Speed of sound (SOS) and broadband ultrasound attenuation (BUA) of the calcaneus were measured using the Lunar Achilles+ (LA+) and CUBA Clinical (CC). In addition to SOS and BUA, LA+ Stiffness Index (SI) was also measured. The nondominant limb was measured in the population group and the contralateral limb in the ankle group. Differences between the groups were determined using t-tests. The ankle fracture group was heavier than the control group by an average of 10 kg. BMD measurements were therefore adjusted for weight. There were no significant differences between the ankle fracture and control groups in lumbar spine BMD, total or regional ankle BMD or calcaneal BUA. However, calcaneal SOS was decreased in the ankle fracture group when measured on the LA+ and CC by 50 m/s (–2.0 SD units, p<0.001) and 19 m/s (–0.5 SD units, p<0.01) respectively. LA+ SI was decreased in the ankle fracture group by 14 units (–1.1 SD units, p<0.001). In conclusion, ankle fracture is not a typical osteoporotic fracture. However, there may be structural changes in the bone (unrelated to bone density) which result in increased fragility and susceptibility to fracture. Received: 7 May 2001 / Accepted: 29 August 2001     

Development of a clinical assessment tool in identifying Asian men with low bone mineral density and comparison of its usefulness to quantitative bone ultrasound

Osteoporosis in men is a largely neglected condition in Asia (and elsewhere), despite the fact that one-third of hip fractures occur in men. Moreover, access to bone mineral density (BMD) measurements is limited in many areas of Asia, and inexpensive methods of targeting high risk patients for BMD measurements would be valuable. We have developed a simple clinical assessment tool to identify high risk Asian men for BMD measurements. Information on risk factors was collected from 420 community-dwelling adult Chinese men aged 50 years and above using a structured questionnaire, and the ability of these risk factors to identify subjects with femoral neck BMD T score –2.5 was assessed. Multiple regression analysis and item reduction yielded a final clinical risk assessment tool based on only age and weight, similar to the Osteoporosis Self-assessment Tool for Asians (OSTA), described previously for Asian women. The OSTA values of –1 had a sensitivity of 81% and specificity of 66%, and the area under the receiver operating characteristics curve was 0.83. The index was validated in another sample of 356 men with a sensitivity of 82% and specificity of 67 %, and an AUC of 0.85. The usefulness of OSTA was further compared to calcaneal quantitative bone ultrasound (QUS) in the validation sample of 356 men. The optimal cutoff T score of –1.2 for QUS yielded sensitivity and specificity values of 75 and 67%, respectively. The AUC for QUS was 0.79. Combining OSTA and QUI gave a sensitivity of 88% and specificity of 66% to identify men with low BMD at the femoral neck, and an AUC of 0.86 which was statistically not different from either OSTA or QUI alone. We conclude that OSTA is a simple and effective clinical risk assessment tool for identifying not only female but also male subjects at increased risk of osteoporosis, and its use could facilitate the appropriate and more cost-effective use of bone densitometry in developing countries.