ARVO 2017 highlights in mathematical modeling
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How to Cite

1.
Braun RJ. ARVO 2017 highlights in mathematical modeling. MAIO [Internet]. 2018 Feb. 16 [cited 2022 Jun. 25];2(1):4-6. Available from: https://www.maio-journal.com/index.php/MAIO/article/view/63

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Keywords

cornea; dry eye; lipid layer; mathematical modeling; tear film

Abstract

[none for this format, extended abstract]
https://doi.org/10.35119/maio.v2i1.63
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References

Francis M, Pahuja N, Shetty R, Devanapalli K, Roy AS. A novel inverse finite element approach to analyze corneal deformation after SMILE and LASIK. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 4317–A0118.

Xu M, Funkenbush DP, Lerner AL, Yoon G. Estimating the material properties of collagen fibril using optical behavior of the human cornea. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 4332–A0133.

Seven I, Stefano VSD, Hardy D, Dupps WJ. Patient-specific computational analysis of photorefractive keratectomy: a clinical validation study. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 4320–A0121.

Pinsky P, Ma Y,Hwang Y, Hayes S, Meek K. A simple mathematical model for the collagen architecture of normal and keratoconic human corneas. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 4312–A0113.

Sacco R, Mauri AG, Cardani A, et al. Increased levels of nitric oxide may pathologically affect functional hyperemia in the retina: model and simulation. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 214–B0245.

Sala L, D. Prada CP, Salerni F, et al. Patient-specific virtual simulator of tissue perfusion in the lamina cribrosa. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 727–B0474.

Krishnan K, Libertiaux V, Grytz R, Girkin CA. Eye-specific finite element modeling of human optic nerve head (ONH) biomechanics. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 2457.

Grytz R, Krishnan K, Libertiaux V, Girkin CA, Downs JCC. Incorporating realistic anisotropic and heterogeneous material properties into eye-specific multi-scale models of the human optic nerve head. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 2458.

Repetto R, Michele FD, Tatone A. A mathematical model of posterior vitreous detachment and generation of vitreoretinal tractions. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 1595.

Radke CJ, Kim YH, Li W, Lin MC. Schirmer strips provide reliable tear-production rates. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 478–A0403.

Zhong L, Braun RJ, King-Smith PE, Begley CG. Dynamics of fluorescent imaging in glob-driven breakup. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 2613–A0203.

Cwiklik L, Melcrova A, Daull P, Garrigue J-S. Tear film break-up: a molecular level view by employing in silico approach. ARVO Annual Meeting. Baltimore, MD, 2017; Abstract 4312–A0113.

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