Quantifying the influence of optical coherence tomography beam tilt in the normal adult mouse retina
Version 1Parallel microstructures within the retina – like retinal nerve fiber layer (RNFL) axons – differentially reflect light depending on its angle. This effect has previously been observed with optical coherence tomography (OCT), but it is under-studied. Quantification of this effect might provide useful information about retinal microstructures, and therefore the broader health of the retina. Our goal was to quantify the influence OCT beam tilt on reflectivity of each layer of the normal adult m
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Parallel microstructures within the retina – like retinal nerve fiber layer (RNFL) axons – differentially reflect light depending on its angle. This effect has previously been observed with optical coherence tomography (OCT), but it is under-studied. Quantification of this effect might provide useful information about retinal microstructures, and therefore the broader health of the retina. Our goal was to quantify the influence OCT beam tilt on reflectivity of each layer of the normal adult m