无波前校正的全视野OCT在体内高分辨率人眼视网膜成像

arXiv: Medical Physics Pub Date : 2018-01-24 DOI:10.1364/OPTICA.5.000409

P. Xiao, V. Mazlin, K. Grieve, J. Sahel, M. Fink, A. Boccara

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引用次数: 32

摘要

由于空间非相干光照下FFOCT的横向分辨率对像差不敏感，我们首次在活体人眼中实现了无波前校正的高分辨率面向全视野OCT (FFOCT)视网膜成像。将FFOCT与光谱域OCT (SDOCT)相结合用于FFOCT光程长度(OPL)的实时匹配。通过实时的SDOCT横截面图像，将FFOCT参考臂的OPL与FFOCT样品臂的不同视网膜层进行匹配。因此，衍射限制的FFOCT图像的多层视网膜在近外围和中央凹获得。正面FFOCT视网膜图像显示各种结构信息，如神经纤维方向，血管分布和光感受器镶嵌。

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In vivo high resolution human retinal imaging with wavefront correctionless full-field OCT

As the lateral resolution of FFOCT with spatially incoherent illumination has been shown to be insensitive to aberrations, we demonstrate high resolution en face full-field OCT (FFOCT) retinal imaging without wavefront correction in the human eye in vivo for the first time. A combination of FFOCT with spectral-domain OCT (SDOCT) is applied for real-time matching of the optical path lengths (OPL) of FFOCT. Through the real-time cross-sectional SDOCT images, the OPL of the FFOCT reference arm is matched with different retinal layers in the FFOCT sample arm. Thus, diffraction limited FFOCT images of multiple retinal layers are acquired at both the near periphery and the fovea. The en face FFOCT retinal images reveal information about various structures such as the nerve fiber orientation, the blood vessel distribution, and the photoreceptor mosaic.

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arXiv: Medical Physics

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