Ophthalmology and Therapy (Mar 2023)

Ultra-High Resolution Optical Aberrometry in Patients with Keratoconus: A Cross-Sectional Study

  • Gonzalo Velarde-Rodriguez,
  • Carolina Belda-Para,
  • Miriam Velasco-Ocaña,
  • Juan M. Trujillo-Sevilla,
  • Javier Rodríguez-Martin,
  • Ignacio Jiménez-Alfaro,
  • José M. Rodriguez-Ramos,
  • Nicolas Alejandre-Alba

DOI
https://doi.org/10.1007/s40123-023-00684-2
Journal volume & issue
Vol. 12, no. 3
pp. 1569 – 1582

Abstract

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Abstract Introduction This study performs optical aberration assessment in patients using a novel ultra-high-resolution device. The objective of this study is to analyze optical aberrations, especially the very high order wavefront (more than 10th order of Zernike coefficients), and compare between keratoconus and healthy patients. Methods In this cross-sectional study, we analyzed 43 eyes from 25 healthy patients and 43 eyes from 27 patients with keratoconus using corneal tomography and a very high-resolution (8.55 µm) aberrometer prototype (T-eyede) outfitted with a sensor originally developed for use in the field of astrophysics. Corneal aberration values were assessed using an optical model built with Zemax optical software, while ocular aberrations were assessed using T-eyede. In addition, image-processing analysis was performed of the wavefront phase, creating a high-pass filter map. Results We found lower values for ocular aberrations than corneal aberrations in both groups (p < 0.001). Specifically, we found a reduction in primary astigmatism (0.145 µm) and primary coma (0.017 µm). Also, the keratoconus group showed significantly higher wavefront aberration values compared with controls (p < 0.001). An analysis of the high-pass filter map revealed 2 contrasting results: one smooth or clear, while the other presented a banding pattern. Almost all in the control group (95%) showed the first pattern, while 77% of the keratoconus group showed a banding pattern on the filtered map (chi-squared test, p < 0.001). Conclusion This device provides reliable, precise measurements of ocular aberrations that correlate well with corneal aberrations. Furthermore, the extraordinary high-resolution measurements revealed unprecedented micro changes in the wavefront phase of patients with keratoconus that varied with disease stage. These findings could lead to new screening or follow-up methods.

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