Frontiers in Bioengineering and Biotechnology (Mar 2021)

Stress–Strain Index Map: A New Way to Represent Corneal Material Stiffness

  • Haixia Zhang,
  • Haixia Zhang,
  • Ashkan Eliasy,
  • Bernardo Lopes,
  • Ahmed Abass,
  • Ahmed Abass,
  • Riccardo Vinciguerra,
  • Riccardo Vinciguerra,
  • Paolo Vinciguerra,
  • Paolo Vinciguerra,
  • Renato Ambrósio,
  • Renato Ambrósio,
  • Cynthia J. Roberts,
  • Ahmed Elsheikh,
  • Ahmed Elsheikh,
  • Ahmed Elsheikh

DOI
https://doi.org/10.3389/fbioe.2021.640434
Journal volume & issue
Vol. 9

Abstract

Read online

PurposeTo introduce a new method to map the mechanical stiffness of healthy and keratoconic corneas.MethodsNumerical modeling based on the finite element method was used to carry out inverse analysis of simulated healthy and keratoconic corneas to determine the regional variation of mechanical stiffness across the corneal surface based on established trends in collagen fibril distribution. The Stress–Strain Index (SSI), developed and validated in an earlier study and presented as a parameter that can estimate the overall stress–strain behavior of corneal tissue, was adopted in this research as a measure of corneal stiffness. The regional variation of SSI across the corneal surface was estimated using inverse analysis while referring to the common features of collagen fibrils’ distribution obtained from earlier x-ray scattering studies. Additionally, for keratoconic corneas, a method relating keratoconic cone features and cornea’s refractive power to the reduction in collagen fibril density inside the cone was implemented in the development of SSI maps. In addition to the simulated cases, the study also included two keratoconus cases, for which SSI maps were developed.ResultsSSI values varied slightly across corneal surface in the simulated healthy eyes. In contrast, both simulated and clinical keratoconic corneas demonstrated substantial reductions in SSI values inside the cone. These SSI reductions depended on the extent of the disease and increased with more considerable simulated losses in fibril density in the cone area. SSI values and their regional variation showed little change with changes in IOP, corneal thickness, and curvature.ConclusionSSI maps provide an estimation of the regional variation of biomechanical stiffness across the corneal surface. The maps could be particularly useful in keratoconic corneas, demonstrating the dependence of corneal biomechanical behavior on the tissue’s microstructure and offering a tool to fundamentally understand the mechanics of keratoconus progression in individual patients.

Keywords