Ultrasound parameters in osteoporotic patients treated with salmon calcitonin: A longitudinal study

Speed of sound (SOS) and broadband ultrasound attenuation (BUA) of ultrasound (US) in bone have been proposed as alternatives to radiation-based methods for the quantitative assessment of osteoporosis. However, the usefulness of US in monitoring response to treatment in osteoporotic patients has yet to be defined. To compare US with bone mineral density (BMD), we studied 112 osteoporotic women (age range 50–64 years). Seventy-eight of them were treated with salmon calcitonin nasal spray (CT; 200 IU/day, 1 month on and 1 month off) and calcium (500 mg/day); 34 patients were given only calcium. One hundred and four women complied with treatment throughout the 2-year study period. At baseline and after 1 and 2 years we measured BMD at lumbar spine by dual-energy X-ray absorptiometry (DXA), and SOS, BUA and Stiffness index, by an Achilles ultrasound unit. Moreover, biochemical markers of bone turnover (alkaline phosphatase, osteocalcin and hydroxyproline) were also measured at baseline and after 6, 12 and 24 months. In the calcitonin-treated group at the end of the study period BMD had increased by 1.99%, SOS by 0.20%, BUA by 0.88% and Stiffness by 2.12%. By contrast in the calcium-treated group all parameters had decreased (BMD, –2.66%; SOS, –0.55%; BUA, –3.30%; Stiffness, –6.0%) by the end of the study period. The differences between groups were significant for BMD, SOS and Stiffness. At baseline a significant, but weak correlation was found between BMD and US parameters. The correlation coefficients between percentage changes at the end of the study period, in BMD and in SOS, BUA and Stiffness, were all significant (p<0.001), being 0.41, 0.53 and 0.57 respectively. In conclusion, ultrasound measurements carried out in conjunction with BMD measurements will yield a more comprehensive assessment of skeletal status and may be helpful in monitoring the response to treatment in osteoporotic patients.     

Stiffness in Discrimination of Patients with Vertebral Fractures

We measured the ultrasound parameters of the heels of 49 women with vertebral fractures and 87 age-matched controls using an Achilles ultrasound device. Average broadband ultrasound attenuation (BUA), speed of sound (SOS) and Stiffness were significantly lower in fracture patients (p<0.0001). We also estimated the ultrasound parameters of patients compared with age-matched non-fracture controls and found the mean BUA to be −1.02 SD below control values. The mean SOS was −0.97 SD and the mean Stiffness was −1.12 SD below control values.  Femoral bone mineral density (BMD) at the neck, Ward’s triangle and the trochanter, the total-body BMD and L2–4 BMD were measured with dual-energy X-ray absorptiometry (DXA) and found to be significantly lower in fracture patients (p<0.0001). All correlation coefficients between ultrasound parameters and DXA measurements were >0.5 and statistically significant (p<0.0001). A stepwise logistic regression with presence or absence of vertebral fracture as the response variable and all ultrasound – DXA parameters as the explanatory variables indicated that the best predictor of fracture was Stiffness, with additional predictive ability provided by spine BMD. Sensitivity and specificity of all measures were determined by the areas under the receiver operating characteristic (ROC) curve, which were 0.76 ± 0.04 for BUA, 0.77 ± 0.04 for SOS, 0.78 ± 0.04 for Stiffness and 0.78 ± 0.03 for spine BMD. The areas under the ROC curves of BUA, SOS, Stiffness and spine BMD were compared and it was found that Stiffness and spine BMD were significantly better predictors of fracture than BUA and SOS. These results support many recent studies showing that ultrasound measurements of the os-calcis have diagnostic sensitivity comparable to DXA, and also demonstrated that Stiffness was a better predictor of fracture than spine BMD. Received: 23 September 1997 / Accepted: 10 April 1998     

Quantitative ultrasound imaging at the calcaneus using an automatic region of interest

A new approach to measuring bone properties at the calcaneus using ultrasound parametric imaging has recently emerged. However, an additional source of observer-related error is the substantial regional variations in the pattern of ultrasound parameters. The contribution of intra-observer and inter-observer variability to the coefficient of variation can be eliminated using an algorithm which selects the region of interest (ROI) completely automatically. The objective of the present study was the clinical assessment of an automatic ROI for both broadband ultrasonic attenuation (BUA) and speed of sound (SOS) measurement using ultrasound parametric imaging. The automatic ROI was defined as the circular region of lowest attenuation in the posterior tuberosity of the calcaneus. We have tested this algorithm using clinical images of the calcaneus from 265 women. Mean coefficients of variation were 1.6% (95% confidence interval 1.4%–1.9%) and 0.26% (95% confidence interval 0.23%–0.32%) for BUA and SOS respectively (standardized CV was 2.1% for BUA and 2.6% for SOS). Z-scores in an osteoporotic group were –0.61 and –0.52 for BUA and SOS respectively. In healthy women, the age-related decline was –0.50 dB/ MHz per year (0.7%/year) for BUA and –1.2 m/s per year (0.08%/year) for SOS. In the subgroup of healthy postmenopausal women, using stepwise multiple regression, we found that BUA was predicted best by years since menopause (YSM) and weight, with overall modelr ²=0.28; SOS was predicted best by YSM only (r ²=0.21). Neither the range of biological variation of ultrasound parameters nor the clinical value were affected by the choice of the region of lowest attenuation for measurement. The automatic procedure was totally independent of operator interaction, therefore excluding loss of precision due to intra- or inter-observer variability. The results showed the high precision and robustness of the procedure. These factors make this approach viable for routine clinical use.     

Quantitative ultrasound assessment of bone in patients with primary hyperparathyroidism

Quantitative ultrasound measurements were done in a group of 26 patients (4 males and 22 females, aged 55.4 ±14.2 years) with primary hyperparathyroidism, and the results were compared with bone mineral density (BMD) carried out at various skeletal sites. Speed of sound (SOS), broadband ultrasound attenuation (BUA), and stiffness were measured with the Achilles ultrasound bone densitometer (Lunar Corp., Madison, WI). Mean ± SD values of SOS, BUA and stiffness in patients with primary hyperparathyroidism were 1522±38 m/seconds, 111±16 dB/MHz, and 80.4±19.8%, respectively. There were significant differences of mean T-score BUA values (-0.63±1.11) compared with corresponding T-score BMD values found at ultradistal (-1.85±1.73, P<0.01), proximal radius (-2.40±2.13, P<0.001), and total femoral (-1.60±1.32, P<0.001) sites. Correlation coefficients between both SOS and BUA values with BMD measurements at specific skeletal sites varied, but stiffness correlated moderately (0.6–0.9) with BMD. Our data strongly indicate that in patients with primary hyperparathyroidism, bone structure of some skeletal sites, as evaluated by BUA measurement, is compromised to a lesser extent than BMD. In this respect it is interesting to note the lack of significant differences (in terms of mean T-score values) in the comparison of two sites of mostly trabecular composition, that is, the lumbar level (-1.17±1.54) and the femoral Ward's triangle (-0.99±1.25). Our results seem to lend further support to the hypothesis that in primary hyperparathyroidism cancellous bone architecture might be preferentially maintained. Quantitative ultrasound techniques appear to complement, and could possibly substitute for, existing bone densitometry examinations.Submitted in part at the IIIrd European Congress of Endocrinology, Amsterdam, The Netherlands, July 17–22, 1994 and at the 16th Annual Meeting of the American Society for Bone and Mineral Research, Kansas City, MO, USA, September 9–13, 1994.     

Ultrasound measurements on os calcis: Precision and age-related changes in a normal female population

We performed ultrasound measurements in the calcaneus of 512 healthy women. Broadband ultrasonic attenuation (BUA) and speed of sound (SOS) were obtained with a Lunar Achilles ultrasonic instrument. Subjects studied were one group of 67 women working in our hospital (group A) and two groups which are part of two large prospective cohort studies (groups B and C). Group B consisted of 244 women aged 31–79 years randomly selected from a large insurance company, and group C consisted of 201 women aged 74–91 years randomly selected from the electoral rolls. Dual-energy X-ray absorptiometry (DXA) measurements of femoral neck and total body were performed with a Hologic QDR 2000 for group B and with a Lunar DPX Plus for group C. The in vitro precision of the Achilles, estimated by measuring a phantom daily for 45 days, was 0.84% for BUA and 0.12% for SOS. We assessed the in vivo short-term precision in 20 healthy volunteers working at the hospital, measured three times each. The coefficients of variation were 0.93% (±0.21) for BUA and 0.15% (±0.03) for SOS. The precision error was compared with the true variation, to obtain a standardized coefficient of variation. We analysed the three groups pooled together (n=512) and found for BUA an average 20% decrease and for SOS a 5% decrease between the ages of 20 and 90 years. We also performed separate analyses of subjects younger than 50 and older than 50 years, and within each 10-year age group we found that BUA was stable or slightly increased from 20 to 50 years and then decreased after 50. In contrast, SOS did not increase but decreased from the age of 20. We compared DXA measurements of the femoral neck and the total body with ultrasound measurements in groups B and C. In both groups the correlations were better with total body DXA than with femoral neck and spine DXA.     

Quantitative ultrasound of bone in institutionalized elderly women: A cross-sectional and longitudinal study

Quantitative ultrasound of bone is a promising method for bone assessment: radiation-free, portable and predictive of hip fracture. Its portability allowed us to study the relationships between ultrasonic parameters of bone with age and with non-vertebral fractures in elderly women living in 19 nursing homes. Broadband ultrasound attenuation (BUA) and speed of sound (SOS) of the calcaneus were measured (and the stiffness index calculated) in a sample of 270 institutionalized women, aged 85±7 years, using an Achilles bone densitometer (Lunar). The effects of age, history of non-vertebral and non-traumatic fractures, body mass index, triceps skinfold and arm circumference were assessed on BUA, SOS and stiffness index. Furthermore, to evaluate longitudinally the influence of aging on the ultrasound parameters of bone, 60 subjects from the same group had a second ultrasound measurement after 1 year. The cross-sectional analysis of the data on all 270 women showed a significant decrease (p<0.001) with age in BUA, SOS and stiffness index (–0.47%, –0.06%, and –1.01% respectively per year). In the 94 women (35%) with a history of previous non-vertebral fractures, ultrasound parameters were significantly lower (p<0.0001) than in the 176 women with no history of fracture (–8.3% for BUA, –1.3% for SOS, –18.9% for stiffness index). In contrast, there was no significant difference in anthropometric measurements between the groups with and without previous non-vertebral fractures, although the measurements decreased significantly with age. In the longitudinal study, repeated quantitative ultrasound after 11.4±0.8 months showed no significant decrease in BUA (–1%) but a significant decrease in SOS (–0.3%,p<0.0001) and in stiffness index (–3.6%,p<0.0002). In conclusion, quantitative ultrasound of the calcaneus measures properties of bone which continue to decline in institutionalized elderly women, and is able to discriminate women with previous non-vertebral fractures.     

Diagnostic value of ultrasound analysis and bone densitometry as predictors of vertebral deformity in postmenopausal women

Bone fractures depend not only on bone density, but also on bone quality. Ultrasound (US) has been proposed as a technique for evaluating skeletal status. Speed of sound (SOS) and broadband ultrasound attenuation (BUA) are the US properties currently used to assess bone strength and fragility. In 304 postmenopausal women (age 58.8±5.5 years) we measured: bone mineral density (BMD) of the lumbar spine (by dual-energy X-ray absorptiometry), SOS, BUA and Stiffness in the os calcis (using an Achilles machine). In all subjects we performed lateral lumbar and thoracic radiographs. Morphometric parameters were derived by measuring the anterior, middle and posterior height of each vertebral body, to obtain a semiquantitative grading of vertebral fractures as follows: 0, no vertebral deformity; 1, any vertebral height reduced between 20% and 25%; 2, any vertebral height reduced between 25% and 40%; 3, any vertebral height reduced more than 40%. On the basis of the number and severity of vertebral deformities the women were divided into: group 1 (n=79), normal; group 2(n=80), mild; group 3 (n=85), moderate; and group 4 (n=60), severe. Mean values of SOS, BUA, Stiffness and BMD were significantly lower (p<0.001) in women with vertebral deformity than in normals. In the whole population SOS, BUA and Stiffness values were significantly correlated with BMD. SOS, BUA and Stiffness values were significantly decreased (p<0.001) with vertebral deformity, as was BMD. Receiver operating characteristic (ROC) curve analysis showed BMD to be slightly better than Stiffness in discriminating among groups. Logistic regression analysis showed that BMD, BUA, SOS and Stiffness were independent predictors of vertebral fracture risk. Ultrasound parameters were still significant independent predictors of vertebral fracture even after adjusting for BMD.     

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     

Longitudinal changes in ultrasound parameters of the calcaneus

We examined with a median follow-up of 1.4 years (range 1.0–2.0 years) the rates of change per year in ultrasound parameters of the calcaneus. Speed of sound (SOS), Broadband ultrasound attenuation (BUA) and Stiffness were measured twice in 543 subjects (224 men) participating in the Rotterdam Study. SOS fell by –2.5 m/s per year in both sexes (95% CI –4.0 to –1.1 m/s per year in men and –3.6 to –1.4 m/s per year in women). Stiffness decreased by –0.62 (–1.33 to 0.09) per year in men and –0.66 (–1.24 to –0.08) per year in women. In men the rate of change in SOS and Stiffness tended to increase with age. BUA did not change significantly during follow-up in either sex. The prospectively assessed rates of loss differed considerably from those observed cross-sectionally, especially for SOS in men (cross-sectional –0.7 m/s per year, longitudinal –2.5 m/s per year). There was substantial variation between individuals both in changes per year in SOS and in changes per year in BUA. With a median follow-up time of 1.4 years, approximately 27% of the variation in the rate of change for SOS could be explained by measurement error while for BUA this was approximately 9% and for Stiffness 11%. Only a small percentage of subjects had changes larger than could be accounted for by measurement error (SOS: men 26.8%, women 21.6%; BUA: men 28.5%, women: 38.8%; Stiffness: men 32.6%, women 35.1%). The latter may limit the use of ultrasound measurements as a follow-up tool in individuals rather than in populations.     

Comparison of broadband ultrasound attenuation to single X-ray absorptiometry measurements at the calcaneus in postmenopausal women

Broadband ultrasound attenuation (BUA), a radiation-free and portable technology, may be useful in assessing bone density and fracture risk. In this study, we compared cross-sectional BUA measurements to the more established single energy X-ray absorptiometry measurements of bone mineral density (BMD) at the calcaneus in 259 healthy postmenopausal women, aged 45–76 years. Paired measurements with repositioning of the subject's dominant heel were made consecutively by each method. A coefficient of variation (CV) for each method was calculated for each individual from the paired scans. BUA and BMD of the heel were also compared with BMD of the lumbar spine and femoral neck, as measured by dual energy X-ray absorptiometry. BUA was significantly correlated with BMD at the calcaneus (r=0.66, P<0.01). Heel BUA was also correlated with lumbar spine BMD (r=0.43, P<0.01) and femoral neck BMD (r=0.43, P<0.01) but the correlations were lower than those between heel BMD and spine (r=0.63, P<0.01) or femoral neck BMD (r=0.62, P<0.01). The mean CV for heel BUA (3.60±3.50%) was significantly greater than that for heel BMD (1.06±0.99%, P<0.01). The moderate correlation of calcaneal BUA and BMD, the lower correlations of BUA than heel BMD with both spine and hip BMD, and lower precision of BUA indicate BUA does not predict bone density as effectively as absorptiometry, the current standard methodology.The contents of this publication do not necessarily reflect the views or policies of the U.S. Department of Agriculture, nor does mention of trade names, commercial products, or organizations imply endorsement by the U.S. Government.     

Heel Ultrasonography in Monitoring Alendronate Therapy: A Four-Year Longitudinal Study

The possibility of using quantitative ultrasound (QUS) in monitoring the response to antiresorptive drugs has yet to be defined. The aim of the present study was to evaluate whether heel ultrasonography, considering its characteristics of long-term precision, is able to monitor osteoporotic patients treated with alendronate. We studied 150 postmenopausal osteoporotic women (age 59.6 ± 5.3 years) treated with alendronate and calcium (n= 74) or with calcium alone (n= 76) for 4 years. At baseline and after 12, 24, 36 and 48 months, we measured bone mineral density (BMD) at the lumbar spine by dual-energy X-ray absorptiometry (DXA, Hologic 4500), and speed of sound (SOS), broadband ultrasound attenuation (BUA) and Stiffness at the calcaneus by Achilles plus. Moreover, the longitudinal precision of QUS parameters was assessed by measuring 10 subjects once a month for 1 year and, on the basis of the coefficients of variation we obtained, we calculated the Least Significant Change between two measurements. In the alendronate-treated patients, at year 1, BMD increased by 4.2%, SOS by 0.4%, BUA by 1.1% and Stiffness by 3.2%; at year 2, BMD increased by 5.0%, SOS by 0.7%, BUA by 1.4% and Stiffness by 5.7%. At year 3, BMD increased by 6.2%, SOS by 0.9%, BUA by 1.8% and Stiffness by 7.6%. At the end of the study period, BMD increased by 7.6%, SOS by 1.2%, BUA by 1.9% and Stiffness by 9.0%. The minimal significant difference between two measurements was 0.8% for SOS, 5.6% for BUA and 5.0% for Stiffness. Among the QUS parameters, Stiffness showed the greatest total treatment effect and a longitudinal sensitivity which was only slightly lower than BMD. The MTI, which represents the period between scans required to show that a ‘true’ change has occurred, was 1.8, 2.7, 11.9 and 2.2 years for BMD, SOS, BUA and Stiffness respectively. Therefore, although the spinal BMD remains the optimal method, QUS at the heel, and in particular Stiffness, seems to be a sensitive tool for monitoring the response to alendronate. Received: 30 August 2001 / Accepted: 29 November 2001     

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.     

Should age influence the choice of quantitative bone assessment technique in elderly women? The EPIDOS study

In a prospective cohort of 7,598 women aged 75 and over, we analyzed the effect of age on the ability of femoral neck bone mineral density (BMD) and of ultrasound (BUA and SOS) of the calcaneus to predict hip fracture. Unadjusted regression analysis showed that the risk of hip fracture was increased 1.7 times for one standard deviation increase in age (3.7 years). Overall, for a decrease of one standard deviation in quantitative bone measures, the risk was significantly increased by 2.2 times for BMD (1.9–2.5), 1.8 for BUA (1.6–2.1), and 1.9 for SOS (1.6–2.2). However the average relative risk associated with a decrease in BMD tends to diminish with advancing age, meaning that a smaller part of the risk is explained by BMD in the very elderly. This is confirmed by the areas under the ROC curves (AUC) of BMD that are significantly better before 80 years (0.75 [0.73–0.76]) than after (0.65 [0.63–0.67] in group 80–84 years and 0.65 [0.61–0.68] in group 85). On the other hand, as the absolute risk increases exponentially with age, the number of hip fractures attributable to a low BMD is still important in the very elderly, the risk difference between the lowest and the highest quartile of BMD is 25 hip fractures / 1,000 woman-years in the group 85 compared with 16 in the two other groups. Thus, after 80, quantitative assessment of bone may still be of interest for clinical decisions. Compared with quantitative ultrasound parameters, the ability of BMD to predict hip fracture was significantly superior to that of BUA and SOS only before the age of 80 (AUC of BMD 0.75 [0.73–0.76], BUA 0.67 [0.66–0.69], SOS 0.67 [0.65–0.69]). For patients older than 80, we did not observe significant differences in AUC between DXA and QUS to predict hip fracture.The named authors wrote this article on behalf of the EPIDOS Study Group. Coordinators: G. Bréart and P. Dargent-Molina (epidemiology), P.J. Meunier and A.M. Schott (clinical aspects), D. Hans (DXA and ultrasound quality control), P.D. Delmas (biochemistry). Principal investigators: J.L. Sebert and C. Baudoin (Amiens), A.M. Schott and M.C. Chapuy (Lyon), C. Marcelli and F. Favier (Montpellier), C.J. Menkès, C. Cormier, and E. Hausherr (Paris), and H. Grandjean and C. Ribot (Toulouse).     

Quantitative Ultrasound and Bone Mineral Density in Patients with Primary Hyperparathyroidism Before and after Surgical Treatment

The aim of this study was to assess the pattern of ultrasound (QUS) parameters and bone mineral density at different skeletal sites in patients with primary hyperparathyroidism (PHPT) before and after surgical treatment. In 22 patients (age range 28–74 years) with PHPT we measured speed of sound (SOS), attenuation (BUA) and Stiffness at the calcaneus, amplitude-dependent speed of sound (AD-SoS) at proximal phalanges, and bone mineral density at lumbar spine (BMD-LS) and at the mid-radius (BMD-MR) and ultradistal radius (BMD-UDR) before, 1 and 2 years after surgical operation. Twenty-two age- and sex-matched healthy subjects provided control data. Before surgery, all parameters apart from SOS were significantly lower in PHPT patients than in controls. At the end of the study period, BMD-LS increased by 7.0%, BMD-UDR by 7.4% and BMD-MR by 11.0%. The changes in ultrasound parameters after surgery were lower (0.44% for SOS, 2.2% for BUA, 3.3% for Stiffness and 2.6% for AD-SoS); however, the increase was statistically significant (p<0.05 and p<0.01, respectively) only for Stiffness and AD-SoS. Our results indicate that parathyroidectomy increases both axial and appendicular BMD and influences QUS parameters differently at the calcaneus and at the phalanges. The combined use of BMD and QUS could improve the assessment of skeletal status in patients with PHPT before and after surgery. Received: 22 January 1999 / Accepted: 25 August 1999     

Ultrasound of the calcaneus and bone mineral density differs in older black and white women but is not impacted by current physical activity

Black women have lower fracture rates, primarily due to bone-dependent factors; however, the racial differences in quantitative ultrasound (QUS) for older black and white women are poorly characterized, especially in regard to the mediating effects of physical activity. The primary aim of this study was to determine if QUS measures differ in age- and body-size-matched older black and white women and to explore if the racial differences were mediated by differences in current habitual physical activity. We performed dual-energy X-ray absorptiometry (DXA) bone mineral density (BMD) measures and QUS measures [broadband ultrasound attenuation (BUA), speed of sound (SOS), quantitative ultrasound index (QUI)] of the calcaneus in 30 black and 30 white women matched in age (68.3 years) and body mass index (30.0 kg/m²). Black women had greater QUS measures of SOS (1,563.6±31.7 vs 1,541.2±23.4, p =0.003) and QUI (102.6±18.5 vs 90.4±15.4, p =0.008), with a strong trend for greater BUA (79.2±15.1 vs 71.9±15.1 m/sec, p =0.066) compared with white women. As expected, black women had greater BMD measures at all sites; whole body (6.8%, p <0.010), lumbar spine (10.4%, p =0.008), proximal femur (14.2%; p <0.001) and femoral neck (20.3%; p <0.001), compared with white women. Although white women reported expending 45% more energy ( p =0.03) in moderate intensity physical activity than black women on a weekly basis, current physical activity did not attenuate the difference in QUS measures between the races. The relations between QUS and BMD measures were similar in black compared with white women. After controlling for BMD, the racial differences in QUS measures were not apparent, precluding the conclusion that bone quality independently contributes to the reduction in fracture risk in older black women. The impact of current physical activity on QUS measures in older black and white women is negligible.     

The relationship between bone mineral density and ultrasound in postmenopausal and osteoporotic women

The aim of this cross-sectional study was to use a novel method of data analysis to demonstrate that patients with osteoporosis have significantly lower ultrasound results in the heel after correcting for the effect of bone mineral density (BMD) measured in the spine or hip. Three groups of patients were studied: healthy early postmenopausal women, within 3 years of the menopause (n=104, 50%), healthy late postmenopausal women, more than 10 years from the menopause (n=75, 36%), and a group of women with osteoporosis as defined by WHO criteria (n=30, 14%). Broadband ultrasound attenuation (BUA), speed of sound (SOS) and Stiffness were measured using a Lunar Achilles heel machine, and BMD of the lumbar spine and left hip was measured using dual-energy X-ray absorptiometry (DXA). SOS, BUA and Stiffness were regressed against lumbar spine BMD and femoral BMD for all three groups combined. The correlation coefficients were in the range 0.52–0.58, in agreement with previously published work. Using a calculated ratio R, analysis of variance demonstrated that the ratio was significantly higher in the osteoporotic group compared with the other two groups. This implied that heel ultrasound values are proportionately lower in the osteoporotic group compared with the other two groups for an equivalent value of lumbar spine and femoral neck BMD. We conclude that postmenopausal bone loss is not associated with different ultasound values once lumbar spine or femoral neck BMD is taken into account. Ultrasound does not give additional information about patterns of bone loss in postmenopausal patients but is important in those patients with osteoporosis and fractures.     

The influence of corticosteroids on quantitative ultrasound parameters of the calcaneus in the 1st year after renal transplantation

Steroid-related bone loss is a recognized complication after renal transplantation. Quantitative ultrasound (QUS) of bone measures bone structure besides bone mass. We investigated the influence of corticosteroid therapy on QUS parameters in the 1st year after renal transplantation. A total of 119 renal transplant recipients were randomized to receive either a steroid-free regimen or a regimen with prednisone during 4 months. In 96 patients (steroid-free n=49, steroids n=47), dual-energy X-ray absorptiometry (DXA) parameters of the lumbar spine and the right hip, and QUS parameters of the right calcaneus were measured at baseline, 3, and 12 months after transplantation. Despite a significant difference in steroid use between the two groups, there was no statistically significant difference between the two groups in DXA and QUS parameters at any time point. BMD of the lumbar spine decreased at 3 months and recovered hereafter to the baseline value. BMD of the femoral trochanter decreased at 3 months and remained stable hereafter. The QUS parameter broadband ultrasound attenuation (BUA) was significantly lower at 12 months after transplantation compared with baseline (steroid-free –4.1±1.5%, steroids –2.6±1.5%). In contrast to the DXA parameters, BUA continued to decrease (P<0.05) between 3 and 12 months after transplantation in both groups. It is concluded, that the usage of a moderate dose of steroids during 4 months after renal transplantation had no important influence on QUS parameters of the calcaneus. While BMD remained stable or improved between 3 and 12 months after transplantation, the decrease in BUA seems to reflect a continuing change in bone structure in this population with preexistent renal osteodystrophy.Abbreviations BMD bone mineral density - BUA broadband ultrasound attenuation - DXA dual-energy X-ray absorptiometry - QUS quantitative ultrasound - SOS speed of sound     

Quantitative ultrasound variables of the heel in Finnish men aged 18–20 yr: predictors, relationship to bone mineral content, and changes during military service

Introduction Determinants of BUA and SOS and their changes during military service-associated physical training were studied in 196 army recruits and 50 control men, aged 18–20 years.Methods Heel ultrasound measurement, DXA, muscle strength test, Cooper’s running test and genetic analyses were performed. Lifestyle factors were recorded. Sex steroids and bone turnover markers were determined. Heel ultrasound was repeated after six months.Results Exercise was the most significant determinant of both BUA (p<0.0001) and SOS (p<0.0001). There were 10% and 1.3% differences in BUA (p=0.006) and SOS (p=0.0001), respectively, between men belonging to the lowest and highest quartiles of exercise index. Weight associated with BUA (p=0.005) and height with SOS (p=0.03). BUA and SOS correlated with BMC and BMD (p<0.0001) but explained only up to 21% of their variance. Over six months SOS increased more in recruits than in control men (p=0.0043), the increase being higher, the lower muscle strength at baseline (r =−0.27, p=0.0028).Conclusion Exercise is the most important determinant of ultrasonographic variables in men, aged 18–20 years. Physical loading during military training increases SOS.     

Measurements of postmenopausal bone loss with a new contact ultrasound system

Summary Measurements of broadband ultrasonic attenuation (BUA) and velocity of ultrasound through the heel (heel velocity, HV) were performed with a Contact Ultrasonic Bone Analyzer (CUBA-Research model) in 229 women. The subjects consisted of 16 healthy young volunteers (Group 1, mean age 26 years), 170 healthy pre- and postmenopausal women (Group 2, mean age 53 years), and 43 osteoporotic women with radiographically defined vertebral crush fracture (Group 3, mean age 66 years). Subjects in Group 1 had 10 repeated measurements in a study of short-term precision. Women in Groups 2 and 3 also had dual X-ray absorptiometry (DXA) scans to measure lumbar spine and femoral neck bone mineral density (BMD). The BUA and HV measurements for all 229 women showed a significant correlation (r = 0.75,P < 0.001). The precision study on the subjects in Group 1 gave a root mean square coefficient of variation of 6.3% for BUA and 1.04% for HV. Linear regression analysis gave the following relationship between BUA and age for the 170 normal women in Group 2: BUA = 83.6 – 0.86 (age 40) dB/MHz (r = –0.31,P < 0.001, SEE = 16.3 dB/MHz). The relationship between HV and age was as follows: HV = 1614 – 2.3 (age 40) m/s (r = –0.33,P < 0.001, SEE = 42 m/s). Multivariate regression analysis showed that in addition to age, years since the menopause was also a significant factor in determining both BUA and HV. In the first 5 years following the menopause, BUA and HV decreased by 2.2% and 0.3%/year, respectively, whereas in the next 10 years the rates of decrease fell to 0.5% and 0.03%/year. The BUA and HV measurements on the 43 osteoporotic subjects in Group 3 gave mean T-scores of –2.1 and –1.9 compared with 59 premenopausal women, and mean Z-scores of –1.3 and –0.9 compared with 26 age-matched normal women in Group 2, respectively. In comparison, the lumbar spine and femoral neck DXA measurements in the same subjects gave mean T-scores of –2.9 and –2.1 and mean Z-scores of –1.7 and –1.0, respectively. Lumbar spine BMD gave the best discrimination between women with osteoporotic vertebral fractures and normal subjects. However, the difference between the lumbar spine and BUA Z-scores was not statistically significant. Femoral neck BMD was equivalent to the ultrasound parameters in T-score and Z-score values.     

Evaluation of a New Calcaneal Quantitative Ultrasound System and Determination of Normative Ultrasound Values in Southern Chinese Women

Quantitative ultrasound (QUS) assessment at the calcaneus has been found to be a safe and reliable method for evaluating skeletal status. The present study aimed at evaluating the precision of the Sahara bone ultrasound densitometer and to determine the normative QUS data in healthy southern Chinese women. Broadband ultrasound attenuation (BUA), speed of sound (SOS) and qualitative ultrasound index (QUI) were determined. The long-term in vitro precision of the Sahara machine over 6 months was 4.6% for BUA and 0.39% for SOS. The short-term in vivo precision was 3.2 ± 1.3% for BUA, 0.3 ± 0.2% for SOS and 1.8 ± 1.0% for QUI. The standardized precision for BUA, SOS and QUI was 4.4, 3.8 and 2.2 respectively. The normative data were determined in 1086 healthy subjects. Postmenopausal women had significantly lower BUA, SOS and QUI levels than the premenopausal women. Significant negative correlations were observed between QUS indices and age. Bone mineral density (BMD) assessments was performed on 349 of these subjects. BUA correlated significantly with lumbar spine BMD (r; = 0.326) and femoral neck BMD (r= 0.395). Similar correlations were observed between SOS, QUI and BMD, with r values ranging between 0.446 to 0.522. Despite the fact that Chinese women have significantly lower BMD values than Caucasian women, the mean BUA values for pre- and postmenopausal Chinese women (73 ± 18 and 59 ± 18 dB/MHz respectively) were almost the same as those reported for Caucasian womeo. These normative data will be useful in the assessment of southern Chinese women with fracture risk. Received: 7 May 1998 / Accepted: 18 August 1998