D. Hans scite author profile

Phalangeal osteosonogrammetry was introduced as a method for bone tissue investigation in 1992. It is based on the measure of the velocity of ultrasound (amplitude-dependent speed of sound [AD-SoS]) and on the interpretation of the characteristics of the ultrasound signal. In this study we have collected a database of 10,115 subjects to evaluate the performance of AD-SoS and to develop a parameter that is able to quantify the signal characteristics: ultrasound bone profile index (UBPI). The database only includes females of which 4.5% had documented vertebral osteoporotic fractures, 16% lumbar spine dual X-ray absorptiometry (DXA), and 6% hip DXA. The analysis of the ultrasound signal has shown that with aging the UBPI, first wave amplitude (FWA), and signal dynamics (SDy) follow a trend that is different from the one observed for AD-SoS; that is, there is no increase during childhood. In the whole population, the risk of fracture per SD decrease for AD-SOS was odds ratio (OR) 1.71 (CI, 1.58 -1.84). The AD-SoS in fractured subjects was significantly lower than in a group of age-matched nonfractured subjects ( p < 0.0001). In a small cohort of hip-fractured patients UBPI proved to be lower than in a control age-matched group ( p < 0.0001). When the World Health Organization (WHO) working group criteria were applied to this population to identify the T score value for osteoporosis, for AD-SoS we found a T score of ؊3.2 and for UBPI we found a T score of ؊3.14. Sixty-six percent of vertebral fractures were below the AD-SoS ؊3.2 T score and 62% were below UBPI ؊3.14. We observed the highest incidence of fractures (63.6%) among subjects with AD-SoS who had both DXA T score values below the threshold. We conclude from this study that ultrasound investigation at the hand phalanges is a valid methodology for osteoporosis assessment. It has been possible to quantify signal changes by means of UBPI, a parameter that will improve the possibility of investigating bone structure. (J Bone Miner Res 2000;15:1603-1614)

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The effects of density and test conditions on measured compression and shear strength of cancellous bone from the lumbar vertebrae of ewes

Mitton¹,

Rumelhart²,

Hans

et al. 1997

Medical Engineering & Physics

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Quantitative ultrasound bone measurement

1997

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Assessment of a New Quantitative Ultrasound Calcaneus Measurement: Precision and Discrimination of Hip Fractures in Elderly Women Compared with Dual X-ray Absorptiometry

Fan

Hans

et al. 2000

Osteoporosis International

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The incidence of osteoporotic hip fracture increases in postmenopausal women with low hip bone mineral density (BMD). Dual X-ray absorptiometry (DXA) is the most commonly used technique for the assessment of bone status and provides good measurement precision. However, DXA affords little information about bone architecture. Quantitative ultrasound (QUS) systems have been developed to evaluate bone status for assessment of fracture risk. Our study was designed to assess a new QUS system from Hologic, the Sahara; to compare it with a previous model, the Walker-Sonix UBA 575+; and to investigate whether it is able to discriminate between women with and without fracture. Using both ultrasound devices, the measurements were performed at the heels of 33 postmenopausal women who had recently sustained hip fracture. A control group of 35 age-matched postmenopausal women was recruited for comparison. The total, neck and trochanter femoral BMD values were assessed using DXA for both groups. QUS and DXA measurements were significantly lower in fractured patients (p < 0.005) than in the control group. The short-term, mid-term and standardized short-term precisions were used to evaluate the reproducibility of the two QUS systems. The Sahara showed a better standardized coefficient of variation for broadband ultrasound attenuation (BUA) than did the UBA 575+ (p < 0.001). The correlation of BUA and speed of sound (SOS) between the two QUS devices was highly significant, with an r value of 0.92 for BUA and 0.91 for SOS. However, the correlation between DXA and ultrasound parameters ranged from 0.28 to 0.44. We found that ultrasound measurements at the heel were significant discriminators of hip fractures with odds ratios (OR) ranging from 2.7 to 3.2. Even after adjusting the logistic regressions for total, neck or trochanter femoral BMD, QUS variables were still significant independent discriminators of hip fracture. The areas under the ROC curves of each ultrasound parameter ranged from 0.75 to 0.78, and compared very well with femoral neck BMD (p > 0.05). In conclusion, our study indicated that the calcaneal QUS variables, as measured by the Sahara system can discriminate hip fracture patients equally as well as hip DXA.

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Effects of a New Positioner on the Precision of Hip Bone Mineral Density Measurements

Hans

Duboeuf

Schott

et al. 1997

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In an attempt to reduce patient positioning errors, the authors tested the use of a new hip-specific positioning tool, OsteoDyne's Hip Positioner System (HPS). The HPS is an "A" frame splint designed to abduct both legs approximately 15°to hold them in full extension at the hips and knees and to lock the feet in a neutral position. Seventy volunteer women aged 35-82 years were randomly assigned in two age-matched groups (mean age 56 years). Each group underwent two consecutive femur dual X-ray absorptiometry (

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D. Hans

Phalangeal Osteosonogrammetry Study: Age-Related Changes, Diagnostic Sensitivity, and Discrimination Power

The effects of density and test conditions on measured compression and shear strength of cancellous bone from the lumbar vertebrae of ewes

Quantitative ultrasound bone measurement

Assessment of a New Quantitative Ultrasound Calcaneus Measurement: Precision and Discrimination of Hip Fractures in Elderly Women Compared with Dual X-ray Absorptiometry

Effects of a New Positioner on the Precision of Hip Bone Mineral Density Measurements

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