利用可见光光学相干断层扫描技术实现细胞级分辨率的视网膜结构成像。
Imaging retinal structures at cellular-level resolution by visible-light optical coherence tomography.
出版信息
Opt Lett. 2020 Apr 1;45(7):2107-2110. doi: 10.1364/OL.386454.
Abstract
In vivo high-resolution images are the most direct way to understand retinal function and diseases. Here we report the use of visible-light optical coherence tomography with volumetric registration and averaging to achieve cellular-level retinal structural imaging in a rat eye, covering the entire depth of the retina. Vitreous fibers, nerve fiber bundles, and vasculature were clearly revealed, as well as at least three laminar sublayers in the inner plexiform layer. We also successfully visualized ganglion cell somas in the ganglion cell layer, cells in the inner nuclear layer, and photoreceptors in the outer nuclear layer and ellipsoid zone. This technique provides, to the best of our knowledge, a new means to visualize the retina in vivo at a cellular resolution and may enable detection or discovery of cellular neuronal biomarkers to help better diagnose ocular disease.
摘要
体内高分辨率成像是了解视网膜功能和疾病的最直接方式。在这里,我们报告了使用具有体积配准和平均功能的可见光光学相干断层扫描技术,在大鼠眼中实现了细胞水平的视网膜结构成像,覆盖了整个视网膜的深度。玻璃体液纤维、神经纤维束和脉管系统清晰可见,在内丛状层中至少可以分辨出三个层状亚层。我们还成功地在节细胞层中可视化了节细胞体、内核层中的细胞以及外核层和椭圆体带中的光感受器。据我们所知,该技术为在体内以细胞分辨率可视化视网膜提供了一种新方法,并且可能有助于检测或发现细胞神经元生物标志物,以帮助更好地诊断眼部疾病。
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