自适应光学视网膜成像的发展[特邀报告]
Evolution of adaptive optics retinal imaging [Invited].
作者信息
Williams David R, Burns Stephen A, Miller Donald T, Roorda Austin
机构信息
The Institute of Optics and the Center for Visual Science, University of Rochester, Rochester NY, USA.
School of Optometry, Indiana University at Bloomington, Bloomington IN, USA.
出版信息
Biomed Opt Express. 2023 Feb 28;14(3):1307-1338. doi: 10.1364/BOE.485371. eCollection 2023 Mar 1.
Abstract
This review describes the progress that has been achieved since adaptive optics (AO) was incorporated into the ophthalmoscope a quarter of a century ago, transforming our ability to image the retina at a cellular spatial scale inside the living eye. The review starts with a comprehensive tabulation of AO papers in the field and then describes the technological advances that have occurred, notably through combining AO with other imaging modalities including confocal, fluorescence, phase contrast, and optical coherence tomography. These advances have made possible many scientific discoveries from the first maps of the topography of the trichromatic cone mosaic to exquisitely sensitive measures of optical and structural changes in photoreceptors in response to light. The future evolution of this technology is poised to offer an increasing array of tools to measure and monitor in vivo retinal structure and function with improved resolution and control.
摘要
本综述描述了自四分之一个世纪前自适应光学(AO)被应用于检眼镜以来所取得的进展,这一技术革新了我们在活体眼内以细胞空间尺度对视网膜成像的能力。综述首先全面罗列了该领域的AO相关论文,然后阐述了所取得的技术进步,特别是通过将AO与其他成像方式相结合,包括共聚焦、荧光、相差和光学相干断层扫描。这些进展促成了许多科学发现,从第一张三色视锥镶嵌地形图到对光感受器中光和结构变化的极其灵敏的测量。这项技术的未来发展有望提供越来越多的工具,以更高的分辨率和更好的控制来测量和监测活体视网膜的结构和功能。
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