Craig Boote scite author profile

The collagen fiber architecture of the posterior human sclera is highly anisotropic and inhomogeneous. Regional differences in peripapillary fiber anisotropy between non-glaucoma and glaucoma eyes may represent adaptive changes in response to elevated IOP and/or glaucoma, or baseline structural properties that associate with predisposition to glaucomatous axon damage. Quantitative fiber orientation data will benefit numerical eye models aimed at predicting the sclera's influence on nerve head biomechanics, and thereby its possible role in glaucoma.

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Scleral anisotropy and its effects on the mechanical response of the optic nerve head

Coudrillier

Boote

Quigley

et al. 2012

Biomech Model Mechanobiol

125

172

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This paper presents a computational modeling study of the effects of the collagen fiber structure on the mechanical response of the sclera and the adjacent optic nerve head (ONH). A specimen-specific inverse finite element method was developed to determine the material properties of two human sclera subjected to full-field inflation experiments. A distributed fiber model was applied to describe the anisotropic elastic behavior of the sclera. The model directly incorporated wide angle x-ray scattering measurements of the anisotropic collagen structure. The converged solution of the inverse method was used in micromechanical studies of the mechanical anisotropy of the sclera at different scales. The effects of the scleral collagen fiber structure on the ONH deformation were evaluated by progressively filtering out local anisotropic features. It was found that the majority of the midposterior sclera could be described as isotropic without significantly affecting the mechanical response of the tissues of the ONH. In contrast, removing local anisotropic features in the peripapillary sclera produced significant changes in scleral canal expansion, and lamina cribrosa deformation. Local variations in the collagen structure of the peripapillary sclera significantly influenced the mechanical response of the ONH.

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The organization of collagen in the corneal stroma

Meek

Boote

2004

Experimental Eye Research

227

154

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Scleral structure and biomechanics

Boote

Sigal

Grytz

et al. 2020

Progress in Retinal and Eye Research

204

161

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Craig Boote

The use of X-ray scattering techniques to quantify the orientation and distribution of collagen in the corneal stroma

Quantitative Mapping of Collagen Fiber Orientation in Non-glaucoma and Glaucoma Posterior Human Sclerae

Scleral anisotropy and its effects on the mechanical response of the optic nerve head

The organization of collagen in the corneal stroma

Scleral structure and biomechanics

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