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3-D optical imaging of the in vivo organ of Corti motion at a sub-nanometer scale

$328,248R01FY2013DCNIH

Oregon Health & Science University, Portland OR

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Abstract

DESCRIPTION (provided by applicant): Low optical coherence tomography (OCT) has been used to image biological tissue and is the theoretical basis of microscopes that are commercially available to image the lens and cellular structures of the human eye. Interferometers based on OCT have not been produced but have unique properties useful for vibration measurements of the tissues and cells of the inner ear. We propose to develop an OCT interferometer that has the ability to both image the living organ of Corti and measure its cellular motion in 3-dimensions down to a vibration as small as 0.1 nm. The basic concept of OCT interferometry has already proven usefulness for the micromechanics of the organ of Corti. This proposal implements technical advances that permit needed higher resolution that enables determination of the direction and phase of the organ displacement vector at the cellular level. The instrument will have an imaging and vibration resolution of about 3 cubic micrometers through the use of a femtosecond pulsed laser. This is accomplished by incorporation of a novel phase-sensitive OCT approach allowing the instrument to be used to test the hypothesis that the tectorial membrane is mechanically resonant in the lateral (radial) direction. Knowledge of the in vivo mechanics of the tectorial membrane, including resonance, will set to rest a quarter century of conjecture on how the organ achieves the efficient mechanical stimulation of the inner ear hair cell stereocilia and the subsequent remarkable sensitivity of mammalian hearing.

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