Litcius/Paper detail

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

Janet A. H. Tang, Charles E. Granger, Karteek Kunala, Keith Parkins, Khang T. Huynh, Kristen Bowles-Johnson, Qiang Yang, Jennifer J. Hunter

2022Biomedical Optics Express15 citationsDOIOpen Access PDF

Abstract

The intrinsic fluorescence properties of lipofuscin – naturally occurring granules that accumulate in the retinal pigment epithelium – are a potential biomarker for the health of the eye. A new modality is described here which combines adaptive optics technology with fluorescence lifetime detection, allowing for the investigation of functional and compositional differences within the eye and between subjects. This new adaptive optics fluorescence lifetime imaging ophthalmoscope was demonstrated in 6 subjects. Repeated measurements between visits had a minimum intraclass correlation coefficient of 0.59 Although the light levels were well below maximum permissible exposures, the safety of the imaging paradigm was tested using clinical measures; no concerns were raised. This new technology allows for in vivo adaptive optics fluorescence lifetime imaging of the human RPE mosaic.

Topics & Concepts

Scanning laser ophthalmoscopyRetinal pigment epitheliumAdaptive opticsOphthalmoscopyOpticsFluorescence-lifetime imaging microscopyFluorescenceLipofuscinRetinaRetinalOptical coherence tomographyPreclinical imagingMaterials scienceHuman eyeConfocalStargardt diseaseBiomedical engineeringIntraclass correlationIn vivoOptical imagingFluorescence microscopeMedical imagingWhite lightAutofluorescenceMacular degenerationMicroscopyMolecular imagingOphthalmology and Visual Impairment StudiesRetinal Diseases and TreatmentsOptical Coherence Tomography Applications