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  1. Muhamad Amin Abd Wahab, Rubita Sudirman, Camallil Omar
    MyJurnal
    Offering inexpensive, widely available and safe method to evaluate the bone condition
    as a prevention step to predict bone fracture which caused by Osteoporosis disease
    makes ultrasound becomes an alternative method beside X-ray based bone
    densitometry. Conventional quantitative ultrasound (QUS) applies the analysis of
    attenuation and velocity to estimate bone health with several measurement
    techniques which analyzes different types of ultrasound waves and bones. However,
    most of the QUS results still does not match the accuracy of the Dual X-ray
    absorptiometry due to the interaction of ultrasound and bone microstructure are not
    fully exploited. The Biot’s theory has predicted that, porous medium like a cancellous
    bone supporting two types of longitudinal wave known as fast and slow wave which
    depends on the type of medium travelled. Both experiment and simulation were
    conducted to investigate the correlation of fast and slow waves individually with a
    variety of cancellous bone condition. Some of the analysis methods are based on
    conventional QUS methods. The fast and slow wave relates more to the microstructure
    of the cancellous bone compared to overall waves. In addition, overall waves had been
    proven to consist of fast and slow wave and can be separated using Bayesian methods.
    Overall waves also found to suffer artifact such as phase cancellation and negative
    dispersion that could cause confusion in analyzing the parameters of ultrasound wave
    with bone structure. In vivo application based on fast and slow wave analysis is able to
    produce results based on mass density which can be compared directly and have high
    correlation with X-ray based bone densitometry. The recent backscattered simulation
    result indicates that, fast and slow waves can be reflected inside the cancellous bone
    might offer a new method to evaluate bone especially in crucial skeletal parts.
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