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RESEARCH PRODUCT
Thickness sensitivity of ultrasound velocity in long bone phantoms
Patrick NicholsonVantte KilappaPetro MoilanenJussi TimonenSulin Chengsubject
Materials scienceAcoustics and UltrasonicsBone diseaseMedullary cavityLong boneBiophysicsLow frequencyBone and BonesImaging phantommedicineHumansUltrasonicsRadiology Nuclear Medicine and imagingTibiaPolyvinyl ChlorideUltrasonographyTibiaRadiological and Ultrasound TechnologyPhantoms Imagingbusiness.industryUltrasoundAnatomymedicine.diseasemedicine.anatomical_structureOsteoporosisbusinessAxial symmetryBiomedical engineeringdescription
One approach to bone disease diagnosis such as osteoporosis is to measure the velocity of ultrasound propagating axially along long bones. In this study, the variation in velocity as a function of radial position was assessed using two polyvinyl chloride (PVC) bone phantoms with cross-sectional geometry similar to the human tibia but differing in medullary cavity diameter. Two ultrasonometers were used: these were a commercial device operating at a relatively high frequency (HF) of 1.25 MHz and a prototype low frequency (LF) device operating at approximately 200 kHz. The LF measurements showed a larger variation with radial position, with changes in velocity of up to 20% occurring around the phantom compared with changes of only 4% at most for HF. The LF velocity correlated strongly with local thickness (r(2) = 0.81) but HF velocity did not. The results demonstrate that LF measurements have a greatly enhanced thickness sensitivity. Using LF, it may therefore be possible to assess bone thickness as a function of radial position and hence to determine the distribution of bone around the long axis.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2004-03-01 | Ultrasound in Medicine & Biology |