A simple mathematical model for collagen fibril organization in normal and keratoconic corneas
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How to Cite

1.
Pinsky PM, Ma Y, Hwang Y, Hayes S, Meek KM. A simple mathematical model for collagen fibril organization in normal and keratoconic corneas. MAIO [Internet]. 2018 Feb. 16 [cited 2024 Oct. 9];2(1):7-11. Available from: https://www.maio-journal.com/index.php/MAIO/article/view/55

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Keywords

anisotropy; collagen fibril organization; cornea; keratoconus; x-ray scattering
https://doi.org/10.35119/maio.v2i1.55
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References

Meek K, Boote C. The use of X-ray scattering techniques to quantify the orientation and distribution of collagen in the corneal stroma. Prog Retin Eye Res. 2009;28(5): 369–392.

Aghamohammadzadeh H, Newton R, Meek K. X-ray scattering used to map the preferred collagen orientation in the human cornea and limbus. Prog Retin Eye Res. 2004;12(2): 249–256.

Hayes S, Boote C, Tu S, Quantock A, Meek K. A study of corneal thickness, shape and collagen organisation in keratoconus using videokeratography and X-ray scattering techniques. Exp Eye Res.

;84(3): 423–434.

Meek K, Tu S, Huang Y, Gill P, Hayes S, Newton R. Changes in collagen orientation and distribution in keratoconus corneas. Invest Ophthalmol Vis Sci. 2005;46(6): 1948–1956.

Cheng X, Petsche S, Pinsky P. A structural model for the in vivo human cornea including collagen swelling interaction. JR Soc Interface. 2015;12(109): doi: 10.1098/rsif.2015.0241.

Ma Y,Hwang Y, Hayes S, Meek K, Pinsky P. A simple mathematical model for collagen fibril organization in normal and keratoconic corneas. Proceedings, ARVO Annual Meeting, Baltimore, MD, 2017.

Geisser S. Predictive inference. Chapman and Hall, 1993.

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