Visible light OCT improves imaging through a highly scattering retinal pigment epithelial wall

Tingwei Zhang; Aaron M. Kho; Robert J. Zawadzki; Ravi S. Jonnal; Glenn Yiu; Vivek J. Srinivasan; Vivek J. Srinivasan

doi:10.1364/OL.405398

Optics Letters
Vol. 45,
Issue 21,
pp. 5945-5948
(2020)
•https://doi.org/10.1364/OL.405398

Visible light OCT improves imaging through a highly scattering retinal pigment epithelial wall

Tingwei Zhang, Aaron M. Kho, Robert J. Zawadzki, Ravi S. Jonnal, Glenn Yiu, and Vivek J. Srinivasan

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Tingwei Zhang, Aaron M. Kho, Robert J. Zawadzki, Ravi S. Jonnal, Glenn Yiu, and Vivek J. Srinivasan, "Visible light OCT improves imaging through a highly scattering retinal pigment epithelial wall," Opt. Lett. 45, 5945-5948 (2020)

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- Medical Optics and Biotechnology
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About this Article
History
- Original Manuscript: August 13, 2020
- Revised Manuscript: September 9, 2020
- Manuscript Accepted: September 21, 2020
- Published: October 23, 2020

Abstract

Here we provide a counter-example to the conventional wisdom in biomedical optics that longer wavelengths aid deeper imaging in tissue. Specifically, we investigate visible light optical coherence tomography of Bruch’s membrane (BM) in the non-pathologic eyes of humans and two mouse strains. Surprisingly, we find that shorter visible wavelengths improve the visualization of BM in pigmented eyes, where it is located behind a highly scattering layer of melanosomes in the retinal pigment epithelium (RPE). Monte Carlo simulations of radiative transport suggest that, while absorption and scattering are higher at shorter wavelengths, detected multiply scattered light from the RPE is preferentially attenuated relative to detected backscattered light from the BM.

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