Affiliation:
1. University of Waterloo
2. Nanyang Technological University
3. SERI-NTU Advanced Ocular Engineering (STANCE)
4. Singapore National Eye Center
Abstract
In-vivo, non-contact, volumetric imaging of the
cellular and sub-cellular structure of the human cornea and limbus
with optical coherence tomography (OCT) is challenging due to
involuntary eye motion that introduces both motion artifacts and blur
in the OCT images. Here we present the design of a line-scanning (LS)
spectral-domain (SD) optical coherence tomography system that combines
2 × 3 × 1.7 µm (x, y, z) resolution in biological
tissue with an image acquisition rate of ∼2,500 fps, and
demonstrate its ability to image in-vivo and without
contact with the tissue surface, the cellular structure of the human
anterior segment tissues. Volumetric LS-SD-OCT images acquired over a
field-of-view (FOV) of 0.7 mm × 1.4 mm reveal fine
morphological details in the healthy human cornea, such as epithelial
and endothelial cells, sub-basal nerves, as well as the cellular
structure of the limbal crypts, the palisades of Vogt (POVs) and the
blood microvasculature of the human limbus. LS-SD-OCT is a promising
technology that can assist ophthalmologists with the early diagnostics
and optimal treatment planning of ocular diseases affecting the human
anterior eye.
Funder
Canada First Research Excellence
Fund
Canadian Institutes of Health
Research
Natural Sciences and Engineering Research
Council of Canada
Subject
Atomic and Molecular Physics, and Optics,Biotechnology
Cited by
18 articles.
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