Applied Sciences (Nov 2018)

Design Considerations for Murine Retinal Imaging Using Scattering Angle Resolved Optical Coherence Tomography

  • Michael R. Gardner,
  • Nitesh Katta,
  • Ayesha S. Rahman,
  • Henry G. Rylander,
  • Thomas E. Milner

DOI
https://doi.org/10.3390/app8112159
Journal volume & issue
Vol. 8, no. 11
p. 2159

Abstract

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Optical coherence tomography (OCT), an optical imaging approach enabling cross-sectional analysis of turbid samples, is routinely used for retinal imaging in human and animal models of diseases affecting the retina. Scattering angle resolved (SAR-)OCT has previously been demonstrated as offering additional contrast in human studies, but no SAR-OCT system has been reported in detail for imaging the retinas of mice. An optical model of a mouse eye was designed and extended for validity at wavelengths of light around 1310 nm; this model was then utilized to develop a SAR-OCT design for murine retinal imaging. A Monte Carlo technique simulates light scattering from the retina, and the simulation results are confirmed with SAR-OCT images. Various images from the SAR-OCT system are presented and utility of the system is described. SAR-OCT is demonstrated as a viable and robust imaging platform to extend utility of retinal OCT imaging by incorporating scattering data into investigative ophthalmologic analysis.

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