Frontiers in Bioengineering and Biotechnology (Nov 2021)

Exploring the Biomechanical Properties of the Human Cornea In Vivo Based on Corvis ST

  • Di Zhang,
  • Di Zhang,
  • Haixia Zhang,
  • Haixia Zhang,
  • Lei Tian,
  • Lei Tian,
  • Yan Zheng,
  • Caiyun Fu,
  • Changbin Zhai,
  • Lin Li,
  • Lin Li

DOI
https://doi.org/10.3389/fbioe.2021.771763
Journal volume & issue
Vol. 9

Abstract

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Purpose: The aim of this study was to provide a method to determine corneal nonlinear viscoelastic properties based on the output data of corneal visualization Scheimpflug technology (Corvis ST).Methods: The Corvis ST data from 18 eyes of 12 healthy humans were collected. Based on the air-puff pressure and the corneal displacement from the Corvis ST test of normal human eyes, the work done by the air-puff attaining the whole corneal displacement was obtained. By applying a visco-hyperelastic strain energy density function of the cornea, in which the first-order Prony relaxation function and the first-order Ogden strain energy were employed, the corneal strain energy during the Corvis ST test was calculated. Then the work done by the air-puff attaining the whole corneal displacement was completely regarded as the strain energy of the cornea. The identification of the nonlinear viscoelastic parameters was carried out by optimizing the sum of difference squares of the work and the strain energy using the genetic algorithm.Results: The visco-hyperelastic model gave a good fit to the data of corneal strain energy with time during the Corvis ST test (R2 > 0.95). The determined Ogden model parameter μ ranged from 0.42 to 0.74 MPa, and α ranged from 32.76 to 55.63. The parameters A and τ in the first-order Prony function were 0.09–0.36 and 1.21–1.95 ms, respectively.Conclusion: It is feasible to determine the corneal nonlinear viscoelastic properties based on the corneal contour information and air-puff pressure of the Corvis ST test.

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