Depth-resolved birefringence imaging of the primate retinal nerve fiber layer using polarization sensitive OCT

机译：使用偏振敏感OCT对灵长类视网膜神经纤维层进行深度分辨双折射成像

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Imaging the optical phase retardation per unit depth (OPR/UD) in the retinal nerve fiber layer (RNFL) may aid in glaucoma diagnosis. Polarization Sensitive Optical Coherence Tomography (PSOCT) was used to record in vivo high-resolution images of the RNFL in two cynomologous monkeys. The depth variation in the Stokes vector of reflected light was used to calculate the OPR/UD as a function of RNFL position. OPR/UD decreased from 35°/100 μm near the optic nerve to 5°100 μm at a location 600 μm superior to the optic nerve. Variation of OPR/UD in the RNFL with retinal position demonstrates a change in birefringence for different densities of ganglion cell axons. PSOCT may be useful for noninvasive determination of RNFL thickness and fiber density.

机译：对视网膜神经纤维层（RNFL）中每单位深度的光学相位延迟（OPR / UD）进行成像可能有助于青光眼的诊断。使用偏振敏感光学相干断层扫描（PSOCT）来记录两只猕猴中RNFL的体内高分辨率图像。反射光的斯托克斯矢量中的深度变化用于计算作为RNFL位置函数的OPR / UD。 OPR / UD从视神经附近的35°/ 100μm降低到视神经上方600μm的位置的5°100μm。 RNFL视网膜位置中OPR / UD的变化表明，对于不同密度的神经节细胞轴突，双折射会发生变化。 PSOCT可用于非侵入性确定RNFL厚度和纤维密度。

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来源
《Conference on Ophthalmic Technologies Ⅻ Jan 19-20, 2002 San Jose, USA》|2002年|p.30-36|共7页
会议地点 San Jose CA(US)
作者
Nate J. Kemp; Jesung Park; Jason D. Marsack; Digant P. Dave; Sapun H. Parekh; Thomas E. Milner; H. Grady Rylander III;
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Biomedical Engineering Department, University of Texas at Austin;

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原文格式 PDF
正文语种 eng
中图分类基础医学;
关键词
glaucoma; retinal nerve fiber layer; polarization sensitive optical coherence tomography; birefringence; optical phase retardation;

机译：青光眼;视网膜神经纤维层;偏振敏感光学相干断层扫描;双折射;光学相位延迟;
入库时间 2022-08-26 14:12:15

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专利

1. In vivo depth-resolved birefringence measurements of the human retinal nerve fiber layer by polarization-sensitive optical coherence tomography [J] . Barry Cense, Teresa C. Chen, B. Hyle Park, Optics Letters . 2002,第18期

机译：偏振敏感光学相干层析成像技术在人的视网膜神经纤维层的体内深度分辨双折射测量。
2. Measuring Retinal Nerve Fiber Layer Birefringence, Retardation, and Thickness Using Wide-Field, High-Speed Polarization Sensitive Spectral Domain OCT [J] . Stefan Zotter, Michael Pircher, Erich G??tzinger, Investigative ophthalmology & visual science . 2013,第1期

机译：使用宽视场，高速偏振敏感光谱域OCT测量视网膜神经纤维层的双折射，延迟和厚度
3. Measuring Retinal Nerve Fiber Layer Birefringence, Retardation, and Thickness Using Wide-Field, High-Speed Polarization Sensitive Spectral Domain OCT [J] . Stefan Zotter, Michael Pircher, Erich G??tzinger, Investigative ophthalmology & visual science . 2013,第1期

机译：使用宽视场，高速偏振敏感光谱域OCT测量视网膜神经纤维层的双折射，延迟和厚度
4. Depth-resolved birefringence imaging of the primate retinal nerve fiber layer using polarization sensitive OCT [C] . Nate J. Kemp, Jesung Park, Jason D. Marsack, Society of Photo-Optical Instrumentation Engineers Conference on Ophthalmic Technologies . 2002

机译：使用偏振敏感性敏感性敏感性神经纤维层的深度分辨双折射成像
5. Polarization properties of the retinal nerve fiber layer investigated with multispectral imaging micropolarimetry. [D] . Huang, Xiangrun. 2000

机译：视网膜神经纤维层的极化特性用多光谱成像微偏光法研究。
6. Analysis of retinal nerve fiber layer birefringence in patients with glaucoma and diabetic retinopathy by polarization sensitive OCT [O] . Sylvia Desissaire, Andreas Pollreisz, Aleksandra Sedova, 2020

机译：偏振敏感致敏感敏感性患者视网膜神经纤维层双折射分析
7. Optimized retinal nerve fiber layer segmentation based on optical reflectivity and birefringence for polarization-sensitive optical coherence tomography [O] . Bingqing Wang, Amit S. Paranjape, Biwei Yin, 2011

机译：基于光学反射性和双折射的优化视网膜神经纤维层分割，用于极化敏感光学相干断层扫描

Depth-resolved birefringence imaging of the primate retinal nerve fiber layer using polarization sensitive OCT

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