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Possible depth-resolved reconstruction of shear moduli in the cornea following collagen crosslinking (CXL) with optical coherence tomography and elastography

Gabriel Regnault, Mitchell A. Kirby, Ruikang K. Wang, Tueng T. Shen, Matthew O’Donnell, Ivan Pelivanov

2023Biomedical Optics Express15 citationsDOIOpen Access PDF

Abstract

Corneal collagen crosslinking (CXL) is commonly used to prevent or treat keratoconus. Although changes in corneal stiffness induced by CXL surgery can be monitored with non-contact dynamic optical coherence elastography (OCE) by tracking mechanical wave propagation, depth dependent changes are still unclear if the cornea is not crosslinked through the whole depth. Here, phase-decorrelation measurements on optical coherence tomography (OCT) structural images are combined with acoustic micro-tapping (A$\mu$T) OCE to explore possible reconstruction of depth-dependent stiffness within crosslinked corneas in an ex vivo human cornea sample. Experimental OCT images are analyzed to define the penetration depth of CXL into the cornea. In a representative ex vivo human cornea sample, crosslinking depth varied from $\sim 100\mu m$ in the periphery to $\sim 150\mu m$ in the cornea center and exhibited a sharp in-depth transition between crosslinked and untreated areas. This information was used in an analytical two-layer guided wave propagation model to quantify the stiffness of the treated layer. We also discuss how the elastic moduli of partially CXL-treated cornea layers reflect the effective engineering stiffness of the entire cornea to properly quantify corneal deformation.

Topics & Concepts

CorneaOptical coherence tomographyElastographyKeratoconusMaterials scienceEx vivoBiomedical engineeringStiffnessOpticsTomographyOphthalmologyIn vivoComposite materialUltrasoundMedicineBiologyBiotechnologyPhysicsRadiologyCorneal surgery and disordersCorneal Surgery and TreatmentsOptical Coherence Tomography Applications
Possible depth-resolved reconstruction of shear moduli in the cornea following collagen crosslinking (CXL) with optical coherence tomography and elastography | Litcius