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本文引用的文献

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Volumetric fluorescein angiography (vFA) by oblique scanning laser ophthalmoscopy in mouse retina at 200 B-scans per second.通过斜向扫描激光检眼镜在小鼠视网膜上以每秒200次B扫描进行的体积荧光素血管造影(vFA)。
Biomed Opt Express. 2019 Aug 30;10(9):4907-4918. doi: 10.1364/BOE.10.004907. eCollection 2019 Sep 1.
2
Real-time volumetric microscopy of in vivo dynamics and large-scale samples with SCAPE 2.0.使用 SCAPE 2.0 进行体内动态和大样本的实时容积显微镜观察。
Nat Methods. 2019 Oct;16(10):1054-1062. doi: 10.1038/s41592-019-0579-4. Epub 2019 Sep 27.
3
Longitudinal detection of retinal alterations by visible and near-infrared optical coherence tomography in a dexamethasone-induced ocular hypertension mouse model.在地塞米松诱导的高眼压小鼠模型中,通过可见光和近红外光学相干断层扫描对视网膜改变进行纵向检测。
Neurophotonics. 2019 Oct;6(4):041103. doi: 10.1117/1.NPh.6.4.041103. Epub 2019 Jul 9.
4
Epi-illumination SPIM for volumetric imaging with high spatial-temporal resolution.基于 epi-illumination 的 SPIM 用于高时空分辨率的容积成像。
Nat Methods. 2019 Jun;16(6):501-504. doi: 10.1038/s41592-019-0401-3. Epub 2019 May 6.
5
Characterization of Proprioceptive System Dynamics in Behaving Drosophila Larvae Using High-Speed Volumetric Microscopy.使用高速容积显微镜对行为果蝇幼虫本体感觉系统动力学的特征描述。
Curr Biol. 2019 Mar 18;29(6):935-944.e4. doi: 10.1016/j.cub.2019.01.060. Epub 2019 Mar 7.
6
Compact, modular and in-plane AOSLO for high-resolution retinal imaging.用于高分辨率视网膜成像的紧凑型、模块化和面内自适应光学扫描激光眼科显微镜
Biomed Opt Express. 2018 Aug 15;9(9):4275-4293. doi: 10.1364/BOE.9.004275. eCollection 2018 Sep 1.
7
Adaptive optics imaging of the human retina.自适应光学视网膜成像。
Prog Retin Eye Res. 2019 Jan;68:1-30. doi: 10.1016/j.preteyeres.2018.08.002. Epub 2018 Aug 27.
8
Integrated one- and two-photon scanned oblique plane illumination (SOPi) microscopy for rapid volumetric imaging.用于快速体积成像的集成单光子和双光子扫描斜平面照明(SOPi)显微镜。
Opt Express. 2018 May 14;26(10):13027-13041. doi: 10.1364/OE.26.013027.
9
Volumetric fluorescence retinal imaging over a 30-degree field of view by oblique scanning laser ophthalmoscopy (oSLO).通过斜扫描激光检眼镜(oSLO)在30度视野范围内进行视网膜体积荧光成像。
Biomed Opt Express. 2017 Dec 4;9(1):25-40. doi: 10.1364/BOE.9.000025. eCollection 2018 Jan 1.
10
Increasing the field of view of adaptive optics scanning laser ophthalmoscopy.扩大自适应光学扫描激光检眼镜的视野。
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斜扫描激光检眼镜适用于人眼光学吗?一项使用眼模型进行容积成像的可行性研究。

Is oblique scanning laser ophthalmoscope applicable to human ocular optics? A feasibility study using an eye model for volumetric imaging.

作者信息

Shao Wenjun, Song Weiye, Yi Ji

机构信息

Department of Medicine, Boston University School of Medicine, Boston Medical Center, Boston, Massachusetts, USA.

Department of Biomedical Engineering, Boston University, Boston, Massachusetts, USA.

出版信息

J Biophotonics. 2020 Jun;13(6):e201960174. doi: 10.1002/jbio.201960174. Epub 2020 Mar 3.

DOI:10.1002/jbio.201960174
PMID:32101361
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7278210/
Abstract

Oblique scanning laser ophthalmoscopy (oSLO) is a novel imaging modality to provide volumetric retinal imaging without depth sectioning over a large field of view (FOV). It has been successfully demonstrated in vivo in rodent eyes for volumetric fluorescein angiography (vFA). However, engineering oSLO for human retinal imaging is challenging because of the low numerical aperture (NA) of human ocular optics. To overcome this challenge, we implement optical designs to (a) increase the angle of the intermediate image under Scheimpflug condition, and (b) expand the magnification in the depth dimension with cylindrical lens to enable sufficient sampling density. In addition, we adopt a scanning-and-descaning strategy, resulting in a compact oSLO system. We experimentally show that the current setup can achieve a FOV of ~3 × 6 × 0.8 mm , and the transverse and axial resolutions of 7 and 41 μm, respectively. This feasibility study serves an important step for future in vivo human retinal imaging.

摘要

斜向扫描激光检眼镜(oSLO)是一种新型成像方式,可在大视野(FOV)范围内无需深度切片即可提供视网膜容积成像。它已在啮齿动物眼睛的活体实验中成功用于容积荧光血管造影(vFA)。然而,由于人眼光学系统的数值孔径(NA)较低,设计用于人体视网膜成像的oSLO具有挑战性。为了克服这一挑战,我们实施了光学设计,以(a)在谢林弗勒条件下增加中间图像的角度,以及(b)使用柱面透镜扩大深度维度的放大倍数,以实现足够的采样密度。此外,我们采用扫描和反扫描策略,从而得到一个紧凑的oSLO系统。我们通过实验表明,当前设置可实现约3×6×0.8 mm的视野,横向和轴向分辨率分别为7μm和41μm。这项可行性研究是未来人体视网膜活体成像的重要一步。