Fluorescence lifetime imaging ophthalmoscopy, FLIO, has gained large interest in the scientific community in the recent years. It is a noninvasive imaging modality that has been shown to provide additional information to conventional imaging modalities. The FLIO device is based on a Heidelberg Engineering Spectralis system. Autofluorescence lifetimes are excited at 473 nm and recorded in two spectral wavelength channels, a short spectral channel (SSC, 498-560 nm) and a long spectral channel (LSC, 560-720 nm). Typically, mean autofluorescence lifetimes in a 30° retinal field are investigated. FLIO shows a clear benefit for imaging different retinal diseases. For example, in age-related macular degeneration (AMD), ring patterns of prolonged FLIO lifetimes 1.5-3.0 mm from the fovea can be appreciated. Macular telangiectasia type 2 (MacTel) shows a different pattern, with prolonged FLIO lifetimes within the typical MacTel zone. In Stargardt disease, retinal flecks can be appreciated even before they are visible with other imaging modalities. Early hydroxychloroquine toxicity appears to be detectable with FLIO. This technique has more potential that has yet to be discovered. This review article focuses on current knowledge as well as pitfalls of this technology. It highlights clinical benefits of FLIO imaging in different ophthalmic and systemic diseases, and provides an outlook with perspectives from the authors.
摘要: 近年来, 荧光活体实时成像检眼镜(FLIO)在科学界引起了广泛的兴趣。它是一种非侵入性的成像方式, 已被证明可以为其他常规成像方式提供更多额外的信息。FLIO装置基于海德堡的spectralis系统。FLIO的激发波长为473 nm, 并记录在两个光谱波长的通道中, 一个是短光谱通道(SSC, 498–560 nm), 另一个是长光谱通道(LSC, 560–720 nm)。一般用于研究30度视网膜范围的自体荧光。FLIO在不同视网膜疾病中成像优势明显。例如, 在与年龄相关的黄斑变性(AMD)中, 可以观察到距中央凹1.5 mm至3.0 mm的FLIO活体的环形图案;在2型黄斑毛细血管扩张(MacTel)中可观察到不同类型影像, 但FLIO影像在MacTel区域的不同表现;在Stargardt病中, 视网膜斑点可以在其他成像方式检测之前就可被识别出来;早期的羟氯喹视网膜病变也可以用FLIO进行识别。因此这项技术还有更多有待开发的潜力。这篇综述重点介绍了该技术的现状和缺陷。强调了FLIO成像在不同眼科和全身性疾病中的临床优势, 并且提出了对于该技术的展望。.