Ultrasound modulated optical tomography: Young's modulus of the insonified region from measurement of natural frequency of vibration

We demonstrate a method to recover the Young's modulus (E) of a tissue-mimicking phantom from measurements of ultrasound modulated optical tomography (UMOT). The object is insonified by a dual-beam, confocal ultrasound transducer (US) oscillating at frequencies f₀ and f₀ + Δf and the variation...

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Bibliographic Details
Published in:Optics express 2011-11, Vol.19 (23), p.22837-22850
Main Authors: Chandran, R Sriram, Roy, Debasish, Kanhirodan, Rajan, Vasu, Ram Mohan, Devi, C Usha
Format: Article
Language:English
Subjects:
Elastic Modulus - physiology
Electricity
Nephelometry and Turbidimetry
Phantoms, Imaging
Tomography, Optical - methods
Transducers, Pressure
Ultrasonics - methods
Vibration
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Summary:We demonstrate a method to recover the Young's modulus (E) of a tissue-mimicking phantom from measurements of ultrasound modulated optical tomography (UMOT). The object is insonified by a dual-beam, confocal ultrasound transducer (US) oscillating at frequencies f₀ and f₀ + Δf and the variation of modulation depth (M) in the autocorrelation of light traversed through the focal region of the US transducer against Δf is measured. From the dominant peaks observed in the above variation, the natural frequencies of the insonified region associated with the vibration along the US transducer axis are deduced. A consequence of the above resonance is that the speckle fluctuation at the resonance frequency has a higher signal-to-noise to ratio (SNR). From these natural frequencies and the associated eigenspectrum of the oscillating object, Young's modulus (E) of the material in the focal region is recovered. The working of this method is confirmed by recovering E in the case of three tissue-mimicking phantoms of different elastic modulus values.
ISSN:1094-4087
1094-4087
DOI:10.1364/OE.19.022837