Richard Milner scite author profile

The propagation mechanisms of ultrasound in trabecular bone are poorly understood and have been the subject of extended debate; also, the reproducibility of ultrasonic measurements on bone in vivo using commercial ultrasound heel-scanning devices is such that the interpretation of the obtained data is difficult. In this paper we describe recent developments in the production of a bone-mimicking material which is well suited to the task of routine monitoring of commercial ultrasound bone scanners. The material, based on a standard epoxy resin is fabricated to a pre-determined porosity value by the inclusion of a marrow-mimicking material thereby introducing a known and controlled mean pore size. Measurements of the velocity and attenuation of the material have been performed over a range of porosity values from 10% to 80% in the frequency range 500-900 kHz; also, broadband ultrasonic attenuation (BUA) values have been obtained from commercial equipment. The material displays velocities in the range 1844-3118 m s(-1) and attenuation ranging from 7.0 to 17.7 dB cm(-1) at 500 kHz.

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Observations of sequential changes in bone mass in postmenopausal women: a controlled trial of oestrogen and calcium therapy

Horsman

Nordin

Gallagher

et al. 1976

Calc. Tis Res.

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Bone ultrasonic attenuation in women: reproducibility, normal variation and comparison with photon absorptiometry

Truscott

Simpson

Stewart

et al. 1992

Clin. Phys. Physiol. Meas.

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The reproducibility of two methods of measuring broadband ultrasonic attenuation (BUA) in the calcaneus have been studied. An improvement in reproducibility in vivo from 9.6% to 2.8% between old and new techniques has been observed. Measurements of the calcaneus using BUA were correlated with measurements of bone mineral density measured by dual energy x-ray absorptiometry in the lumbar spine, femur and total body and bone mineral content in the distal and proximal forearm measured by single photon absorptiometry. For the older BUA technique the correlation coefficients ranged between r = 0.27 and r = 0.34. For the newer BUA technique the correlation coefficients ranged between r = 0.49 and r = 0.62 and were all significant (P less than 0.001).

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Comparison of in vivo body composition using two lunar dual-energy X-ray absorptiometers

Oldroyd

Milner²,

Stewart³

et al. 1998

Applied Radiation and Isotopes

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Richard Milner

Fragility fractures and bone mineral density in HIV positive women: a case-control population-based study

A phantom for quantitative ultrasound of trabecular bone

Observations of sequential changes in bone mass in postmenopausal women: a controlled trial of oestrogen and calcium therapy

Bone ultrasonic attenuation in women: reproducibility, normal variation and comparison with photon absorptiometry

Comparison of in vivo body composition using two lunar dual-energy X-ray absorptiometers

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