Quantitative and Rapid In Vivo Imaging of Human Lenticular Fluorescence.

IF 5 2区 医学 Q1 OPHTHALMOLOGY Investigative ophthalmology & visual science Pub Date : 2024-11-04 DOI:10.1167/iovs.65.13.41
Joshua M Herzog, Angela Verkade, Volker Sick
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Abstract

Purpose: To quantitatively investigate the chemical origins of near-UV excited fluorescence in the crystalline lens, and demonstrate the potential usefulness of a rapid and noninvasive diagnostic approach for screening and monitoring of lens damage.

Methods: Anterior segment UV fluorescence imaging was applied to a population of 30 healthy adults, ages 18 to 64 years. Absolute fluorescence intensities and intensity ratios were compared across the population as a function of age. Fluorescence quantum yield (FQY) was calculated from imaging results based on a previous radiometric characterization.

Results: Typical FQYs at 365 nm excitation are approximately 0.2% for healthy adults. Intensity and FQY were observed to increase significantly with age, consistent with ex vivo and confocal microscopy studies. The ratio of blue to green fluorescence is strongly correlated with FQY and age, suggesting that both increases in fluorophore concentration and changes in composition occur with age. Fluorescence data is quantitatively and qualitatively consistent with pyridine nucleotides in young adults, and changes with age are consistent with formation of β-carbolines or advanced glycation end products. Intralens variation is consistent with increased oxidation or glycation in the lens nucleus relative to the cortex.

Conclusions: Lenticular fluorescence can be measured rapidly, accurately, and quantitatively in vivo which provides a spatially resolved, quantitative measure of lens chemistry, including damage from oxidation and glycation. Careful interpretation of fluorescence intensities and intensity ratios can provide chemical insight into lens health. Anterior segment UV fluorescence imaging can thus serve as a useful tool for screening, monitoring, and research of lens damage and cataract formation.

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人体光栅荧光的定量和快速体内成像。
目的:定量研究晶状体中近紫外激发荧光的化学来源,并展示一种快速、无创诊断方法在筛查和监测晶状体损伤方面的潜在用途:方法:对 30 名 18 至 64 岁的健康成年人进行前段紫外线荧光成像。比较了不同年龄人群的绝对荧光强度和强度比。荧光量子产率(FQY)是根据之前的辐射表征从成像结果中计算出来的:健康成年人在 365 nm 激发下的典型 FQY 约为 0.2%。观察到荧光强度和 FQY 随着年龄的增长而显著增加,这与体内外研究和共聚焦显微镜研究结果一致。蓝绿荧光的比率与 FQY 和年龄密切相关,这表明荧光团浓度的增加和组成的变化都会随着年龄的增长而发生。荧光数据在定量和定性上都与青壮年的吡啶核苷酸一致,而随着年龄的变化则与β-羰基化合物或高级糖化终产物的形成一致。晶状体内荧光的变化与晶状体核相对于皮质的氧化或糖化增加一致:晶状体荧光可在体内快速、准确、定量地测量,这为晶状体化学成分(包括氧化和糖化造成的损伤)提供了一种空间分辨定量测量方法。仔细解读荧光强度和强度比,可以从化学角度了解晶状体的健康状况。因此,前段紫外荧光成像可作为筛查、监测和研究晶状体损伤和白内障形成的有用工具。
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来源期刊
CiteScore
6.90
自引率
4.50%
发文量
339
审稿时长
1 months
期刊介绍: Investigative Ophthalmology & Visual Science (IOVS), published as ready online, is a peer-reviewed academic journal of the Association for Research in Vision and Ophthalmology (ARVO). IOVS features original research, mostly pertaining to clinical and laboratory ophthalmology and vision research in general.
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