Christian M. Oh scite author profile

Christian M. Oh

4Publications

37Citation Statements Received

46Citation Statements Given

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University of California, Riverside

Publications

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GPU accelerated real-time multi-functional spectral-domain optical coherence tomography system at 1300nm

Wang¹,

Oh²,

Oliveira³

et al. 2012

Opt. Express

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We present a GPU accelerated multi-functional spectral domain optical coherence tomography system at 1300nm. The system is capable of real-time processing and display of every intensity image, comprised of 512 pixels by 2048 A-lines acquired at 20 frames per second. The update rate for all four images with size of 512 pixels by 2048 A-lines simultaneously (intensity, phase retardation, flow and en face view) is approximately 10 frames per second. Additionally, we report for the first time the characterization of phase retardation and diattenuation by a sample comprised of a stacked set of polarizing film and wave plate. The calculated optic axis orientation, phase retardation and diattenuation match well with expected values. The speed of each facet of the multi-functional OCT CPU-GPU hybrid acquisition system, intensity, phase retardation, and flow, were separately demonstrated by imaging a horseshoe crab lateral compound eye, a non-uniformly heated chicken muscle, and a microfluidic device. A mouse brain with thin skull preparation was imaged in vivo and demonstrated the capability of the system for live multi-functional OCT visualization.

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Thinned-skull Cortical Window Technique for <em>In Vivo</em> Optical Coherence Tomography Imaging

Szu

Eberle

Reynolds

et al. 2012

JoVE

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Optical coherence tomography (OCT) is a biomedical imaging technique with high spatial-temporal resolution. With its minimally invasive approach OCT has been used extensively in ophthalmology, dermatology, and gastroenterology. Using a thinned-skull cortical window (TSCW), we employ spectral-domain OCT (SD-OCT) modality as a tool to image the cortex in vivo. Commonly, an opened-skull has been used for neuro-imaging as it provides more versatility, however, a TSCW approach is less invasive and is an effective mean for long term imaging in neuropathology studies. Here, we present a method of creating a TSCW in a mouse model for in vivo OCT imaging of the cerebral cortex.

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A common-path optical coherence tomography based electrode for structural imaging of nerves and recording of action potentials

Islam

Haque

et al. 2013

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Thinned-skull Cortical Window Technique for <em>In Vivo</em> Optical Coherence Tomography Imaging

Szu

Eberle

Reynolds

et al. 2012

JoVE

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Christian M. Oh

GPU accelerated real-time multi-functional spectral-domain optical coherence tomography system at 1300nm

Thinned-skull Cortical Window Technique for <em>In Vivo</em> Optical Coherence Tomography Imaging

A common-path optical coherence tomography based electrode for structural imaging of nerves and recording of action potentials

Thinned-skull Cortical Window Technique for <em>In Vivo</em> Optical Coherence Tomography Imaging

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