Layko Liechti scite author profile

In surgical refractive interventions over-correction or under-correction still occur in 10-15 % of cases. Improved outcomes could be achieved by incorporating patient-specific corneal biomechanics into surgical planning. As a first step, this study mechanically characterizes and numerically simulates corneal lenticules harvested during a refractive intervention called Corneal Lenticule Extraction for Advanced Refractive Correction (CLEAR). These human corneal lenticules were mechanically tested in uniaxial extension in nasal-temporal and 45 deg orientations. An HGO material model that accounts for the unique collagen arrangement of the human cornea was developed and used to identify the material parameters using a finite element model of the experimental setup. The material parameters that best represent the experimental force/displacement were obtained by parameter estimation using Bayesian optimization. The uniaxial experiments performed on 3 patients did not show distinctive differences in orientation. The estimated material parameters fit well with the experimental data, representing a promising material model. In the future, Brillouin measurements will be performed on the CLEAR patients before lenticule extraction so that material parameters can be estimated in vivo, providing the surgeon with a patient specific-surgical planning tool.

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Orientation and Depth Dependent Mechanical Properties of the Porcine Cornea: Experiments and Parameter Identification

Nambiar¹,

Liechti²,

Müller³

et al. 2022

SSRN Journal

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Layko Liechti

Orientation and depth dependent mechanical properties of the porcine cornea: Experiments and parameter identification

Patient-Specific Finite Element Analysis of Human Corneal Lenticules: An Experimental and Numerical Study

Biomechanical Characterization of Human Corneal Lenticules

Orientation and Depth Dependent Mechanical Properties of the Porcine Cornea: Experiments and Parameter Identification

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