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Optical Coherence Tomography
Tomographic imaging is demonstrated in vitro in the peripapillary area of the retina and in the coronary artery, two clinically relevant examples that are representative of transparent and turbid media, respectively.
Polarization-sensitive low-coherence reflectometer for birefringence characterization and ranging
We present a polarization-sensitive optical coherence-domain reflectometer capable of characterizing the phase retardation between orthogonal linear polarization modes at each reflection point in a…
Optical coherence tomography of the human retina.
OBJECTIVE To demonstrate optical coherence tomography for high-resolution, noninvasive imaging of the human retina. Optical coherence tomography is a new imaging technique analogous to ultrasound B…
Optical coherence tomography using a frequency-tunable optical source.
We have developed a simple, wide-optical-bandwidth, high-resolution system for performing rapid optical frequency domain reflectometry measurements and applied it to multidimensional tomographic…
Topography of diabetic macular edema with optical coherence tomography.
Imaging of macular diseases with optical coherence tomography.
Quantification of nerve fiber layer thickness in normal and glaucomatous eyes using optical coherence tomography.
Nerve fiber layer thickness can be measured using optical coherence tomography and provide good structural and functional correlation with known parameters, even when controlling for factors associated with the diagnosis of glaucoma.
Optical biopsy and imaging using optical coherence tomography
Preliminary studies indicate the feasibility of developing OCT for a wide range of clinical and research diagnostic imaging applications, and the ability to non-excisionally evaluate tissue morphology using a catheter or an endoscope could have a significant impact on the diagnosis and management of a widerange of diseases.
Optical coherence microscopy in scattering media.
A novel technique, based on optical coherence tomography, is described, for enhanced optical sectioning in confocal microscopy, which is demonstrated and compared with the predictions of a single-backscatter theory.