Quantitative Ultrasound at the Phalanges in Healthy Italian Men

In the last decade there has been a growing interest in quantitative ultrasound (QUS) techniques as a new method in the assessment of bone status in metabolic bone diseases. Many studies have shown that QUS parameters can predict vertebral and femoral fracture risk in patients with osteoporosis. However, most of the studies were performed in women, whereas few data are available for men. The aim of this study was to build up a normative database on a healthy Italian male population for QUS parameters at the phalanges. Amplitude-dependent speed of sound (AD-SoS) and three parameters (first wave amplitude, FWA; signal dynamic, SDy; time frame, TF) characterizing the graphic trace of the ultrasound signal were measured at the phalanges in 286 healthy subjects (age range 20–87 years). First, the QUS device was adapted to compensate for the difference in finger thickness between men and women. Preliminary data on 150 healthy subjects showed a significant difference between the traditional and adapted device, and the latter was independent of finger thickness variations. AD-SoS showed a significant (p<0.001) decrease with aging, expressed by a second-order polynomial equation. The peak value (2122 m/s) was observed in the fourth decade; thereafter it decreased to 1980 m/s at the ninth decade. Likewise, FWA and SDy were significantly (p<0.001) reduced after the fourth decade, whereas TF remained stable over time until the last decade. In conclusion, in men AD-SoS showed a negative trend with aging. The pattern with aging of parameters characterizing the graphic trace was different from the pattern for AD-SoS, suggesting the possibility of obtaining further information on phalanx bone physical properties which could be useful in the differential diagnosis of metabolic bone diseases and in the assessment of fracture risk. Received: 16 August 1999 / Accepted: 30 November 1999     

Differential Effects of Primary Hyperparathyroidism on Ultrasound Properties of Bone

Primary hyperparathyroidism (PHPT) may result in greater cortical than trabecular bone loss. Ultrasound is able to predict osteoporotic fracture risk independent of densitometric measurements, but little is known about the changes in ultrasound variables with PHPT. The aim of our study was to examine the effect of PHPT on ultrasound variables and bone density measurements at cortical (hand) and trabecular (lumbar spine and heel) sites, and to evaluate their reversibility following surgical treatment. We recruited 25 postmenopausal women diagnosed with PHPT ages 51–76 years (mean 62 years) and 95 postmenopausal controls ages 57–80 years (mean 67 years). Measurements were made at baseline and 1 year. Speed of sound (SOS) and broadband ultrasound attenuation (BUA) of the heel were measured using the Lunar Achilles (LA+) and McCue CUBA Clinical (CC). Amplitude-dependent speed of sound (AD-SoS) and ultrasound bone profile index (UBPI) of the fingers were measured using the IGEA DBM Sonic. Bone mineral density (BMD) of the hand and lumbar spine (LS) were measured by dual-energy X-ray absorptiometry (DXA). At baseline, hand BMD, LS BMD and heel BUA were significantly lower and finger UBPI significantly higher in the PHPT patients compared with controls (p<0.001). There were no differences in Stiffness Index, heel SOS or finger AD-SoS between control and PHPT subjects. At 1 year postoperatively, there was a mean (±SD) increase in LS and hand BMD of 3 ± 1% (p<0.01). BUA at the heel increased (11 ± 5%, p<0.001), and UBPI of the fingers decreased (17 ± 7%, p<0.001) probably reflecting different modes of attenuation in trabecular (scattering) and cortical (absorption) bone. Stiffness Index, SOS of the heel and AD-SoS of the fingers did not change. BUA, UBPI and BMD returned towards normal postmenopausal values following surgery. There were no changes in BMD or QUS variables at 1 year in the control group. Quantitative ultrasound (QUS) measurements provide different information about bone structure than densitometric measurements and cannot be regarded as simply reflecting bone density. With further research the combined use of BMD and QUS could improve the assessment of skeletal status in patients with PHPT before and after surgery. Received: 10 September 2001 / Accepted: 31 January 2002     

The Association of Body Composition and Sex Hormones with Quantitative Ultrasound Parameters at the Calcaneus and Phalanxes in Elderly Women

We investigated the associations of body composition and sex hormones with quantitative ultrasound (QUS) parameters carried out at different skeletal sites. In 897 postmenopausal women (64.1 ± 6.6 years) we measured QUS at the calcaneus (stiffness) by Achilles-GE and at phalanxes (amplitude-dependent speed of sound [AD-SOS], bone transmission time [BTT], and ultrasound bone profile index [UBPI]) by Bone Profiler-IGEA. In all subjects we measured fat mass (FM), lean mass (LM), android fat, and gynoid fat by DXA. In all subjects we also assessed serum testosterone (T), estradiol (E₂), sex-hormone binding globulin, free estrogen index (FEI), free androgen index, 25-hydroxyvitamin D (25OHD), bone alkaline phosphatase (B-ALP), and type I collagen β carboxy telopeptide. Both E₂ and FEI showed weak but significant correlations with stiffness and QUS parameters at phalanxes. No significant relationships were found between T and QUS. BMI and LM were positively correlated with stiffness (r = 0.14 and r = 0.17, respectively), whereas BMI and FM showed negative correlations with AD-SOS, BTT, and UBPI. 25OHD showed positive relationships with stiffness and QUS at phalanxes. In multivariate models LM and age were associated with stiffness whereas E₂ and age were significant predictors of BTT. AD-SOS was negatively associated with FM, B-ALP, and age but positively with E₂ and 25OHD. In postmenopausal women QUS parameters at the calcaneus and at phalanxes are significantly, but diversely, associated with body composition, sex hormones, 25OHD, and bone turnover markers.     

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     

Phalangeal quantitative ultrasound technology and dual energy X-ray densitometry in patients with primary hyperparathyroidism: influence of sex and menopausal status

Fifty-one patients with surgically proven primary hyperparathyroidism (PHPT), 11 males and 40 females, mean age+/-SD: 55.9+/-14.1 years, and 58 age- and sex-matched normal subjects were studied. The femoral and L(2)-L(4) bone mineral density (BMD; Hologic QDR 4500 C), as well as quantitative ultrasonometry (QUS; DBM-Sonic 1200) of the phalanges of both hands were measured in patients and controls. QUS measurements included amplitude-dependent speed of sound (AD-SoS), and other parameters derived from the graphic trace: signal dynamics (Sdy), first wave amplitude (FWA), bone transmission time (BTT) and ultrasound bone profile index (UBPI). Patients with PHPT showed significantly lower dual energy X-ray densitometry (DXA) values and QUS parameters compared to controls (lumbar spine Z-score: controls: -0.16+/-1.12, PHPT: -0.70+/-1.14, P=0.016; femoral neck Z-score: controls: -0.28+/-1.74, PHPT: -1+/-1.01, P=0.013; total femur Z-score: controls: -0.33+/-1.12, PHPT: -1.01+/-0.95, P=0.0013; AD-SoS Z-score: controls: -0.89+/-1.22, PHPT: -1.97+/-1.78, P=0.0003; FWA Z-score: controls: 0.36+/-1, PHPT: 0.62+/-0.85, P<0.0001; BTT Z-score: controls: 0.04+/-1.03, PHPT: -0.45+/-1.37, P=0.044; UBPI Z-score: controls: -0.02+/-1.01, PHPT: -0.68+/-1.05, P=0.002; SDy (mV/micros(2)): controls: -295+/-256, PHPT: -498+/-306, P=0.0003). In male patients, BMD values measured on the lumbar spine and femoral regions were similar to those found in male controls, while QUS values were significantly lower (lumbar spine Z-score: controls: -1.05+/-1.41, PHPT: -1.75+/-1.21, P=0.21; femoral neck Z-score: controls: -0.37+/-1.84, PHPT: -1.11+/-1.14, P=0.27; total femur Z-score: controls: -0.16+/-1.59, PHPT: -1.02+/-1.20, P=0.168; AD-SoS Z-score: controls: -0.52+/-1.58, PHPT: -1.57+/-1.77, P=0.149; FWA Z-score: controls: 0.67+/-1.01, PHPT: -0.74+/-0.79, P=0.0016; BTT Z-score: controls: 1.22+/-0.83, PHPT: 0.75+/-1.51, P=0.478; UBPI Z-score: controls: 0.56+/-0.94, PHPT: -0.47+/-1.10, P=0.025; SDy (mV/micros(2)): controls: -167+/-230, PHPT: -485+/-307, P=0.01). Women with PHPT were further divided into two subgroups: premenopause ( n=11) and postmenopause ( n=29). The premenopausal women with PHPT showed significantly lower DXA values than those of the premenopausal control ones, but similar QUS parameters (lumbar spine Z-score: controls: 0.12+/-0.66, PHPT: -0.59+/-0.85, P=0.03; femoral neck Z-score: controls: 0.06+/-2.85, PHPT: -1.48+/-1.05, P=0.11; total femur Z-score: controls: -0.51+/-0.97, PHPT: -1.48+/-0.63, P=0.009; AD-SoS Z-score: controls: 0.78+/-0.89, PHPT: -1.26+/-1.88, P=0.42; FWA Z-score: controls: 1.14+/-0.77, PHPT: 0.12+/-0.80, P=0.007; BTT Z-score: controls: 0.13+/-0.60, PHPT: 0.25+/-1.15, P=0.757; UBPI Z-score: controls: 0.73+/-0.49, PHPT: 0.24+/-0.96, P=0.15; SDy (mV/micros(2)): controls: -118+/-123, PHPT: -271+/-301, P=0.106). The postmenopausal women with PHPT showed both DXA and QUS parameters significantly lower than those found in the postmenopausal controls (lumbar spine Z-score: controls: 0.09+/-0.96, PHPT: -0.31+/-0.96, P=0.004; femoral neck Z-score: controls: -0.38+/-1.01, PHPT: -0.76+/-0.91, P=0.14; total femur Z-score: controls: -0.33+/-0.97, PHPT: -0.81+/-0.92, P=0.057; AD-SoS Z-score: controls: -1.08+/-1.17, PHPT: -2.38+/-1.68, P=0.31; FWA Z-score: controls: -0.013+/-0.81, PHPT: -0.86+/-0.74, P=0.0009; BTT Z-score: controls: -0.58+/-0.68, PHPT: -1.13+/-0.93, P=0.016; UBPI Z-score: controls: -0.62+/-0.83, PHPT: -1.11+/-0.82, P=0.034; SDy (mV/micros(2)): controls: -419+/-242, PHPT: -589+/-269, P=0.012). The relative risk of osteopenia was significantly increased in PHPT patients at several measurement sites. There was a highly significant correlation between spine and femoral BMD and QUS parameters, while PTH serum levels did not correlate with any of the densitometric variables. In conclusion, QUS parameters would seem to be able to distinguish patients with PHPT from normal controls in male subjects and in postmenopausal women, but not in premenopausal women. This would suggest that the higher estrogen levels in premenopausal patients might preserve the bone from significant structural changes. This may also suggest that hyperparathyroidism, in addition to the reduction of bone mineral content, can cause an alteration of bone structure with an additional increase in fracture risk in postmenopausal women. Furthermore, the alterations in QUS parameters in patients who do not show significant changes in DXA measurements suggest an involvement of bone that is independent of mineral content and may be helpful for selecting candidates for surgery, according to NIH criteria.     

German Pediatric Reference Data for Quantitative Transverse Transmission Ultrasound of Finger Phalanges

Quantitative ultrasound (QUS) of the finger phalanges is a useful tool in the assessment of disease- or age-related deterioration of bone. For studying the impact of juvenile diseases or growth disorders affecting the skeleton, a reference database for QUS parameters is needed. The aim of this study was to establish a calibrated reference database of parameters of transverse ultrasound transmission through juvenile finger phalanges. A total of 1328 children (650 females, 678 males; ages 3–17 years) were measured in Heidelberg and Kiel in order to establish a German reference database. Highly significant gender-specific correlations (p<0.0001) were found between the QUS parameters amplitude-dependent speed of sound (AD-SoS) and bone transmission time (BTT) versus age, body height and body mass index (BMI). For AD-SoS the correlation coefficients were R ²= 0.64 against age in males and R ²= 0.73 in females, R ²= 0.60 against body height in males and R ²= 0.68 in females, and R ²= 0.19 against BMI in males and R ²= 0.23 in females. For BTT the correlation coefficients were R ²= 0.74 against age in males and R ²= 0.79 in females, R ²= 0.75 against body height in males and R ²= 0.77 in females, and R ²= 0.32 against BMI in males and R ²= 0.35 in females. Age and height were the strongest determinants of QUS results. Gender-specific differences were observed in AD-SoS (significant for ages 11–14 years and for 150–170 cm body height) and in BTT (significant for ages 7 and 11–17 years and for 160–170 cm body height). Tables of QUS parameters versus age and height can serve as a basis for the evaluation of the impact of skeletal diseases or growth disorders on phalangeal QUS. Depending on the type of disease or growth disorder, measurement results can be compared with age- or height- specific reference data. In this way a simple and radiation-free assessment of juvenile skeletal disorders using quantitative ultrasound might be possible in the future. Received: 9 February 2001 / Accepted: 1 August 2001     

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     

Teriparatide’s effects on quantitative ultrasound parameters and bone density in women with established osteoporosis

This study aimed to evaluate the effects of teriparatide [hPTH (1–34)] on quantitative ultrasound (QUS) parameters and bone mineral density (BMD) at the axial and appendicular (hand) skeleton in women with established osteoporosis who had been previously treated with antiresorptive drugs. Sixty postmenopausal women (age 71.1±6.8 years) were randomly assigned to either receive once-daily 20-μg subcutaneous teriparatide (n=30) or continue the antiresorptive treatment (n=30). At baseline and at 2-month intervals we measured QUS parameters at the calcaneus using the Achilles Plus (GE, Lunar), measuring speed of sound (SOS), broadband ultrasound attenuation (BUA), and stiffness index; QUS parameters at the phalanxes using the Bone Profiler (IGEA), measuring amplitude-dependent speed of sound (AD-SoS), bone transmission time (BTT), and fast wave amplitude (FWA); and BMD values at the right hand using dual x-ray absorptiometry. BMD at the lumbar spine, femur, and whole body were measured on a 6-monthly basis. After 1 year of teriparatide treatment, the changes in BMD were 7.1% at the lumbar spine, 2.6% at the femoral neck, −0.8% at the total hip, and −0.6% for the whole body. Teriparatide induced a significant and persistent decrease in BMD at the hand (−3.6% at month 6 and −2.7% at month 12). In the teriparatide group at month 12, AD-SoS was slightly increased (0.7%; not significant), whereas BTT significantly decreased (−16.4%, p<0.001) and FWA significantly increased (17.5%, p<0.001). The FWA/BTT ratio increased by 26.6% and 32.9% at months 6 and 12, respectively, in the teriparatide group and remained unchanged in the antiresorptive group. In women with established osteoporosis who had previously been treated with various antiresorptive drugs, 1 year of teriparatide treatment determined the expected increase in BMD at the axial skeleton and a significant and prolonged decrease in BMD at the hand. Moreover, teriparatide determined important changes in BTT and FWA, two parameters obtained from the analysis of ultrasonographic trace at the phalanxes, which could be considered in monitoring for the early effect of teriparatide on bone.     

A Clinical Prediction Rule to Identify Premenopausal Women with Low Bone Mass

Identifying premenopausal women at risk for osteoporosis and related fractures is a potentially important way to reduce the burden of illness from this disease as low peak bone mass is a risk factor for postmenopausal osteoporosis. We examined predictors of ‘low’ peak bone mass in 668 healthy, pre-menopausal, Caucasian women ages 18–35 years. Predictors of bone mass were assessed using a detailed, standardized interview. Bone mass was assessed using two measures: dual-energy X-ray absorptiometry (DXA) at the femoral neck and lumbar spine, and quantitative ultrasound (QUS) of the heel, which evaluates stiffness, speed of sound (SOS) and broadband ultrasound attenuation (BUA). Bone mass was considered ‘low’ if the corresponding Z-score was <–1.00 (DXA values, stiffness) or if values were in the lowest quintile (BUA, SOS). Using multivariate logistic regression modeling, predictors of low bone mass based on QUS, DXA or both were determined. The mean age of the cohort was 27.3 years. Independent predictors of low bone mass by both DXA and QUS were: low body weight, menarche at age 15 years or later and physical inactivity as an adolescent. Individuals with all three risk factors had a 92% chance of having low bone mass using both techniques. This suggests that a simple risk factor assessment can identify most young women with low peak bone mass. Early intervention in this group of women may reduce the risk for osteoporosis in later life. Received: 2 June 2000 / Accepted: 20 November 2001     

Quantitative Ultrasound Measurements of the Tibia and Calcaneus in Comparison with DXA Measurements at Various Skeletal Sites

The performance of quantitative ultrasound (QUS) measurements of the tibia and calcaneus was studied in 109 elderly people (age range 65–87 years). Broadband ultrasound attenuation (BUA) and speed of sound (SOS) were measured at the calcaneus and SOS was assessed at the tibia. Short-term precision of tibial QUS was studied in 16 volunteers. The coefficient of variation (CV) was 0.4% and the standardized CV (sCV) was 4.4%. We compared the calcaneal and tibial QUS measurements with bone mineral density (BMD) measurements of the lumbar spine, femoral neck, trochanter and total body assessed by dual-energy X-ray absorptiometry (DXA). Calcaneal QUS correlated better with BMD at various skeletal sites than tibial QUS. Calcaneal BUA showed higher correlations with BMD values of the lumbar spine, femoral neck, trochanter and total body than calcaneal and tibial SOS (r= 0.48–0.64, r= 0.30–0.47, r= 0.35–0.47, respectively; p<0.001). Body weight modified the relationships between calcaneal and tibial QUS and BMD measurements of the hip. Higher body weight was associated with higher BMD values at the femoral neck and trochanter for the same calcaneal and tibial QUS values. After adjustments for body weight correlations of tibial and calcaneal QUS with BMD improved and were very similar. This suggests that correction for body weight is important and could add to the predictive value of QUS measurements. Received: 16 July 1997 / Accepted: 8 July 1998     

Quantitative Ultrasound of the Heel and Some Parameters of Bone Turnover in Patients with Acromegaly

Acromegaly caused by growth hormone (GH) hypersecretion is characterized by enhanced skeletal growth and soft tissue enlargement. Insulin-like growth factor-1 (IGF-1) is the main peripheral mediator of GH action and it has a crucial role in the maintenance of a normal bone mass. However, in some patients with acromegaly, secondary osteoporosis is observed, despite the strong anabolic effect of GH and IGF-1 in bones. It is thought to be due to hypogonadism. The bone changes are accompanied by increased turnover. The aim of this study was to assess bone properties by ultrasound and turnover in patients with acromegaly. The study was carried out in 26 patients (13 men, 13 women): 14 with active acromegaly and 12 cured by surgery who had non-active disease. Speed of sound (SOS), broadband ultrasound attenuation (BUA) and their combination Stiffness Index (SI) by quantitative ultrasound (QUS) of the heel, hormonal status, serum osteocalcin (OC) concentration and the urinary excretion of pyridinoline collagen crosslinks (PYR) were all studied. Controls were 20 age- and sex-matched healthy persons. We observed statistically significantly lower QUS values in patients with active disease than in those whose disease was cured. The differences were more pronounced in men. QUS values were lower in the entire group of patients compared with the controls; however, the differences were not statistically significant. Serum OC concentrations and urinary PYR excretion were higher in active disease. Statistically significant inverse correlations between serum GH levels and SOS (r=–0.58, p = 0.002); BUA (r=–0.66; p= 0.0001); T-score (r = −0,65, p= 0.0001) and Z-score (r=–0.66, p = 0.0001) were found only in male patients. No correlations between IGF-1, duration of the disease, OC, PYR and other data studied were observed. In conclusion, we have shown decreased QUS parameters suggesting impaired bone properties and quality in terms of density and elasticity in men, but not in women, with active acromegaly. This finding suggests osteoporosis with increased bone turnover. The above-mentioned changes might be caused by the action of GH on trabecular bone and its metabolism, since no hypogonadism in male patients was shown. Moreover, the influence of acromegaly on heel geometry and soft tissue swelling should also be considered. Received: 20 February 2001 / Accepted: 23 October 2001     

Comparison of Quantitative Ultrasound Measurements in Calcaneus with DXA and SXA at Other Skeletal Sites: A Population-Based Study on 280 Children Aged 11–16 Years

We performed ultrasound measurements (QUS) of the calcaneus in a population-based setting on 280 healthy children, aged 11–16 years, from a small urban area in southern Sweden. The results are compared with dual-energy X-ray absorptiometry (DXA) measurements in the total body, the lumbar spine and the hip, as well as single-energy X-ray absorptiometry (SXA) of the forearm. Normative data and correlations between the three different techniques were determined. We found significant correlations between QUS and age (r= 0.34–0.54), height (r= 0.13–0.56) and weight (r= 0.30–0.60), and between QUS and bone mineral density (BMD) measurements (r= 0.44–0.70). Boys increased all their bone mineral variables with age, whereas girls showed a decreasing trend from age 15 years. QUS had a significantly higher increase in standardized value with age than Ward's triangle BMD, but a significantly lower increase in standardized value with age than distal radius (cortical site) BMD. At other BMD sites we did not find any significant differences compared with QUS regarding changes with age. The measurements obtained by QUS, DXA and SXA, respectively, were divided into quartiles. Of all subjects in the lowest quartile for QUS measurements, only 34–50% were also in the lowest quartiles for DXA and SXA measurements. In conclusion, QUS measurements of the calcaneus in children show similar results as for adult regarding the correlation with DXA and SXA; they also have a significant correlation with anthropometric data. QUS did not identify the same individuals with low bone mass as the X-ray techniques. Received: 23 June 1997 / Accepted: 21 January 1998     

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     

Quantitative Ultrasound Assessment of Acute Bone Loss Following Spinal Cord Injury: A Longitudinal Pilot Study

Spinal cord injury (SCI) results in substantial and rapid osteoporosis. Given its rapid onset, assessment of bone changes in the early stages (first 6 months) following SCI is important. This is particularly pertinent if intervention is to be implemented. Quantitative ultrasound (QUS) represents a potential assessment tool for the evaluation of skeletal changes in the early stages following SCI. This longitudinal pilot study assessed changes in QUS measures of calcaneal broadband ultrasound attenuation (BUA) and speed of sound (SOS) in 15 male subjects (age 23.9 ± 7.3 years) over a 6-week period. Their mean time since SCI was 110.3 ± 34.5 days. Also assessed were bone mineral density of the calcaneus (BMDc) and proximal tibia (BMDt) using dual-energy X-ray absorptiometry (DXA). Confirming the rapid onset of bone loss following SCI, BMDc and BMDt decreased by 7.5 ± 3.0% (p<0.001) and 5.3 ± 4.2% (p<0.001), respectively. QUS was sensitive to these changes. BUA decreased by 8.5 ± 6.9% (p<0.001), whilst SOS decreased by 1.5 ± 1.3% (p<0.001). Suggesting an influence of the material properties of bone on BUA, BUA was correlated with BMDc at both the initial (r= 0.68, p<0.01) and final (r = 0.62, p<0.01) assessments. There were no significant correlations in the magnitude of change over the 6-week assessment period between any of the skeletal measures (all p>0.05). This suggests that skeletal qualities other than material properties also influence QUS measures. Overall, this study confirmed the rapid onset of bone loss following SCI and showed QUS to be a useful portable measure of acute bone changes. This may allow assessment of bone loss and the efficacy of intervention on this loss in the early stages following injury, a period where traditional axial DXA assessment is limited by practical constraints. Received: 14 February 2001 / Accepted: 18 January 2002     

Bone Mineral Density and Quantitative Ultrasound Parameters in Patients with Klinefelter’s Syndrome after Long-Term Testosterone Substitution

Klinefelter’s syndrome (KS) is a common sex chromosomal disorder associated with androgen deficiency and osteoporosis. Only few bone mineral density (BMD) and no quantitative ultrasound (QUS) data are available in these patients after long-term testosterone replacement therapy. We examined in a cross-sectional study 52 chromatin-positive KS patients aged 39.1 ± 12.4 years (mean ± SD). Patients had been treated with oral or parenteral androgens for 9.2 ± 8.2 years (range 1–32 years). Areal BMD and bone mineral apparent density (BMAD, i.e., estimated volumetric BMD) at the lumbar spine, total hip and femoral neck were determined by dual-energy X-ray absorptiometry. BMD T-scores in the patient group were calculated based on three different North American reference databases. The QUS parameters broadband ultrasound attenuation (BUA) and speed of sound (SOS) were measured at the calcaneus using an ultrasound imaging device (UBIS 3000) and were compared with QUS results in a sex-, age- and height-matched control group. QUS T-scores were calculated based on the results of QUS measurements in 50 normal Dutch men between the ages of 20 and 30 years. QUS and BMD results in the KS patient group were compared. Overall, based on the three reference databases, 46% and 63% of the KS patients had a T-score between −1 and −2.5 and a further 10% and 14% had a T-score ≤−2.5 at the total hip and/or lumbar spine, as measured by areal BMD or BMAD, respectively. Thirty-nine percent of the KS patients had a T-score between −2.5 and −1, while 2% had a T-score ≤−2.5 for BUA and/or SOS. BUA (77.7 ± 15.0 dB/MHz) and SOS (1518.8 ± 36.5 m/s) were significantly lower in the KS patients than in age- and height-matched controls (87.1 ± 17.8 dB/MHz, p<0.005, and 1536.5 ± 42.5 m/s, p<0.05). Correlation coefficients between the QUS parameters and areal BMD (0.28 to 0.37) or BMAD (0.27 to 0.46) were modest. ROC analysis showed that discrimination of a BMD or BMAD T-score ≤−2.5 with either BUA or SOS was not statistically significant.  Although a limitation of our study is that direct comparison of BMD and QUS T-scores is not possible because in the control group in which QUS parameters were determined no BMD measurements were performed, we conclude that despite long-term testosterone replacement therapy, a considerable percentage of patients with KS had a BMD T-score <−1 or even ≤−2.5, based on different North American reference databases. This percentage was even higher for BMAD. QUS parameters were also low in the KS patient group when compared with Dutch control subjects. QUS parameters cannot be used to predict BMD or BMAD in KS patients. Received: 28 February 2000 / Accepted: 3 August 2000     

Efficiency of Quantitative Ultrasound Measurements as Compared with Dual-Energy X-ray Absorptiometry in the Assessment of Corticosteroid-Induced Bone Impairment

Bone loss due to corticosteroid treatment differs from that of postmenopausal osteoporosis with regard to bone structure. Corticosteroids affect both horizontal and vertical trabeculae while horizontal trabeculae are damaged in postmenopausal osteoporosis. Dual-energy X-ray absorptiometry (DXA) is the gold standard to evaluate bone loss. The place of quantitative ultrasound (QUS), a technique that could theoretically provide information on bone structure, is not well established in corticosteroid-induced bone impairment. The aim of the study was to determine the usefulness of QUS in the assessment of corticosteroid-induced bone impairment. We hypothesized that the relationship between QUS and DXA could be influenced by changes in bone structure and thus differ with regard to corticosteroid treatment. Seventy-seven women with inflammatory diseases chronically treated with corticosteroids (dose: 7.5–15 mg/day), 29 without corticosteroids and 100 controls were investigated. Bone mineral density at the lumbar spine (BMDL) was measured by DXA and QUS parameters were measured at the calcaneus. Both the QUS parameters (SOS, BUA, Stiffness) and BMDL were significantly lower (by 1.3% for SOS, 5.8% for BUA, 12.7% for Stiffness and 11% for BMDL) in patients treated with corticosteroids compared with patients not taking corticosteroids and with controls (p<0.001, ANCOVA, with age and height as covariates). Multiple linear regressions of Stiffness, SOS and BUA as dependent variables on age, BMDL, corticosteroid treatment and a computed new variable designed to test the interaction between BMDL and the treatment group showed that Stiffness, SOS and BUA were dependent on age and BMDL (p<0.001); BUA and Stiffness were dependent on treatment group. Taking into account the age of the patients, a significant difference was observed in the relation between BUA and BMDL according to treatment with corticosteroids. A similar difference was found in the subgroup of patients without fractures. SOS and BUA were strongly correlated but their relation did not differ according to treatment. Thus, QUS is useful in the assessment of corticosteroid-associated bone loss. Furthermore, the observation of a significant difference in the relationship between BUA and BMDL with regard to corticosteroid treatment might support the hypothesis that QUS, especially BUA, could give additional information about bone structure. Received: 24 August 1998 / Accepted: 4 March 1999     

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     

Feasibility of quantitative ultrasound measurements on the humerus of newborn infants for the assessment of the skeletal status

Quantitative ultrasound (QUS), although widely used in adults has, so far, been scarcely employed in newborn infants and children. This study aimed to evaluate the feasibility of the use of QUS in newborn children and the factors influencing QUS parameters. In 140 consecutive healthy full-term newborn babies (76 male and 64 female; gestational age: 39.5±1.5 weeks) QUS parameters were assessed within 3 days of the childs birth at the distal diaphysis of the humerus by use of Bone Profiler, after an appropriate modification of caliper and software. In all subjects we evaluated the amplitude-dependent speed of sound (AD-SoS) (meters per second), the characterizing graphic trace parameters [signal dynamic (SDy), fast wave amplitude (FWA) and bone transmission time (BTT)], SoS (meters per second), that is, the speed of sound calculated on the first peak, and hBTT, that is, the interval time between the first peak of the ultrasound and when this reaches the speed of 1,570 m/s, which is the velocity of ultrasound in the soft tissue. This latter parameter allows one to measure bone tissue independently of soft tissue. QUS measurements were also performed at the phalanges on all mothers (age range 24–38 years), who also completed a self-report questionnaire on their obstetric history, smoking and dietary habits and family history of osteoporosis. In 73 mothers and their children QUS was repeated after 12 months. All QUS parameters were slightly higher in male than in female newborn infants but the difference was not significant. BTT and hBTT of neonates showed a significant relationship with birth weight (r=0.20; P<0.05 and r=0.37; P<0.01, respectively) and with cranial circumference (r=0.22; P<0.05 and r=0.36; P<0.01, respectively). In newborn infants none of the QUS parameters was significantly influenced by maternal QUS or by maternal smoking and calcium intake. In a model of multiple regression analysis the cranial circumference was the only parameter entered into the model, explaining approximately 15% of hBTT value. At month 12 AD-SoS and SoS were slightly lower than at birth (–11% and –0.1%, respectively), whereas both BTT and hBTT showed a significant (P<0001) increase. The present study demonstrated the feasibility of the use of QUS, as assessed by a new measurement approach at the humerus, in the evaluation of skeletal status in neonates. BTT and, above all, hBTT, appears to be the best parameter for both evaluation of skeletal status at birth and monitoring of bone growth in the first year of life.     

Detailed Analyses of Periarticular Osteoporosis in Rheumatoid Arthritis

Periarticular osteopenia is the earliest radiographic sign of rheumatoid arthritis (RA). Recent studies using dual-energy X-ray absorptiometry (DXA) have indicated that the loss of periarticular BMD can be quantified by whole-hand bone mineral density (BMD) measurements. The aim of this study was to analyze periarticular BMD in more detail by DXA and quantitative ultrasound (QUS). In a cross-sectional study 23 women aged 30–76 years with early RA, mean disease duration 26 ± 19 months, and 18 men aged 42–69 years, mean disease duration 24 ± 25 months, were examined. All patients received antirheumatic therapy. The reference population consisted of 103 age-matched controls (68 females, 35 males) and young healthy controls. BMD measurements were performed using a DXA Expert XL densitometer (Lunar). BMD of the whole-hand and two subregions was determined: two subchondral regions of interest (S.CH.) were set within the trabecular bone, distal to the proximal interphalangeal joints of digits II and III excluding the dense subchondral bone of the metacarpophalangeal (MCP) joint and two metacarpal regions of interest (MCP) were set including the entire MCP joint of these fingers. QUS measurements at the proximal phalanges of digits II–V were performed using a DBM Sonic (Igea); amplitude-dependent speed of sound (Ad-SoS) was determined. In comparison with whole-hand BMD measurements, bone loss was pronounced in patients with a disease duration of 18–72 months at the subchondral regions of interest in both genders compared with age-matched controls (women: mean BMD loss S.CH. −23%, p<0.001, whole-hand −16%, p<0.001; men: mean BMD loss S.CH. −19%, p<0.05, whole-hand −12%, p<0.05). The bone changes were also shown by QUS (women: Ad-SOS values of 1950 ± 90 m/s in RA vs 2137 ± 35 m/s in young healthy controls (p<0.005); men AD-SOS 1956 ± 87 m/s in RA vs 2146 ± 41 m/s in young healthy controls (p<0.05)). These results show that BMD and Ad-SOS values are significantly lowered in patients with early RA and indicate that periarticular osteoporosis in early RA might possibly be better detected using detailed hand scan analyses. Received: 2 February 1999 / Accepted: 25 October 1999     

Comparison of Six Calcaneal Quantitative Ultrasound Devices: Precision and Hip Fracture Discrimination

Quantitative ultrasound (QUS) is now accepted as a useful tool in the management of osteoporosis. There are a variety of QUS devices clinically available with a number of differences among them, including their coupling methods, parameter calculation algorithms and sites of measurement. This study evaluated the abilities of six calcaneal QUS devices to discriminate between normal and hip-fractured subjects compared with the established method of dual-energy X-ray absorptiometry (DXA). The short-term and mid-term precisions of these devices were also determined. Thirty-five women (mean age 74.5 ± 7.9 years) who had sustained a hip fracture within the past 3 years, and 35 age-matched controls (75.8 ± 5.6 years) were recruited. Ultrasound measurements were acquired using six ultrasound devices: three gel-coupled and three water-coupled devices. Bone mineral density was measured at the hip using DXA. Discrimination of fracture patients versus controls was assessed using logistic regression analysis (expressed as age- and BMI-adjusted odds ratios per standard deviation decrease with 95% confidence interval) and receiver operating characteristics (ROC) curve analysis. Measurement precision was standardized to the biological range (sCV). The sCV ranged from 3.14% to 5.5% for speed of sound (SOS) and from 2.45% to 6.01% for broadband ultrasound attenuation (BUA). The standardized medium-term precision ranged from 4.33% to 8.43% for SOS and from 2.77% to 6.91% for BUA. The pairwise Pearson correlation coefficients between different devices was highly significant (SOS, r= 0.79–0.93; BUA, r= 0.71–0.92). QUS variables correlated weakly, though significantly, with femoral BMD (SOS, r= 0.30–0.55; BUA, r= 0.35–0.61). The absolute BUA and SOS values varied among devices. The gel-coupled devices generally had a higher SOS than water-coupled devices. Bone mineral density (BMD) and BUA were weakly correlated with weight (r= 0.48–0.57 for BMD and r= 0.18–0.54 for BUA), whereas SOS was independent of weight. All the QUS devices gave similar, statistically significant hip fracture discrimination for both SOS and BUA measures. The odds ratios for SOS (2.1–2.8) and BUA (2.4–3.4) were comparable to those for femoral BMD (2.6–3.5), as were the area under the curve (SOS, 0.65–0.71; BUA, 0.62–0.71; BMD, 0.65–0.74) from ROC analysis. Within the limitation of the sample size all devices show similar diagnostic sensitivity. Received: 2 February 2000 / Accepted: 1 May 2000