Literature DB >> 30895942

Longitudinal adaptive optics fluorescence microscopy reveals cellular mosaicism in patients.

HaeWon Jung1, Jianfei Liu1, Tao Liu1, Aman George1, Margery G Smelkinson2, Sarah Cohen3, Ruchi Sharma1, Owen Schwartz2, Arvydas Maminishkis1, Kapil Bharti1, Catherine Cukras1, Laryssa A Huryn1, Brian P Brooks1, Robert Fariss1, Johnny Tam1.   

Abstract

The heterogeneity of individual cells in a tissue has been well characterized, largely using ex vivo approaches that do not permit longitudinal assessments of the same tissue over long periods of time. We demonstrate a potentially novel application of adaptive optics fluorescence microscopy to visualize and track the in situ mosaicism of retinal pigment epithelial (RPE) cells directly in the human eye. After a short, dynamic period during which RPE cells take up i.v.-administered indocyanine green (ICG) dye, we observed a remarkably stable heterogeneity in the fluorescent pattern that gradually disappeared over a period of days. This pattern could be robustly reproduced with a new injection and follow-up imaging in the same eye out to at least 12 months, which enabled longitudinal tracking of RPE cells. Investigation of ICG uptake in primary human RPE cells and in a mouse model of ICG uptake alongside human imaging corroborated our findings that the observed mosaicism is an intrinsic property of the RPE tissue. We demonstrate a potentially novel application of fluorescence microscopy to detect subclinical changes to the RPE, a technical advance that has direct implications for improving our understanding of diseases such as oculocutaneous albinism, late-onset retinal degeneration, and Bietti crystalline dystrophy.

Entities:  

Keywords:  Clinical practice; Genetic diseases; Neuroimaging; Ophthalmology

Mesh:

Substances:

Year:  2019        PMID: 30895942      PMCID: PMC6483009          DOI: 10.1172/jci.insight.124904

Source DB:  PubMed          Journal:  JCI Insight        ISSN: 2379-3708


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3.  Adaptive optics fluorescence lifetime imaging ophthalmoscopy of in vivo human retinal pigment epithelium.

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