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Literature DB >> 3607340

In vivo determination of Young's modulus for the human cornea.

E Sjøntoft, C Edmund.

Abstract

Entities: Species

Mesh：

Year: 1987 PMID： 3607340 DOI： 10.1007/bf02459699

Source DB: PubMed Journal: Bull Math Biol ISSN： 0092-8240 Impact factor: 1.758

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7 in total

1. Proteoglycans and collagen fibre organization in human corneoscleral tissue.

Authors: M S Borcherding; L J Blacik; R A Sittig; J W Bizzell; M Breen; H G Weinstein
Journal: Exp Eye Res Date: 1975-07 Impact factor: 3.467

2. Nonlinear material properties of intact cornea and sclera.

Authors: S L Woo; A S Kobayashi; W A Schlegel; C Lawrence
Journal: Exp Eye Res Date: 1972-07 Impact factor: 3.467

3. Rheology of the cornea: experimental techniques and results.

Authors: G W Nyquist
Journal: Exp Eye Res Date: 1968-04 Impact factor: 3.467

4. Scleral creep vs. temperature and pressure in vitro.

Authors: P R Greene; T A McMahon
Journal: Exp Eye Res Date: 1979-11 Impact factor: 3.467

5. Measurements of the compressive properties of scleral tissue.

Authors: J L Battaglioli; R D Kamm
Journal: Invest Ophthalmol Vis Sci Date: 1984-01 Impact factor: 4.799

6. Biomechanical properties of keratoconus and normal corneas.

Authors: T T Andreassen; A H Simonsen; H Oxlund
Journal: Exp Eye Res Date: 1980-10 Impact factor: 3.467

7. Comparison of mechanical properties of keratoconus and normal corneas.

Authors: I S Nash; P R Greene; C S Foster
Journal: Exp Eye Res Date: 1982-11 Impact factor: 3.467

7 in total

11 in total

1. Mechanical interferometry imaging for creep modeling of the cornea.

Authors: Lawrence Yoo; Jason Reed; James K Gimzewski; Joseph L Demer
Journal: Invest Ophthalmol Vis Sci Date: 2011-10-28 Impact factor: 4.799

Review 2. Indentation versus tensile measurements of Young's modulus for soft biological tissues.

Authors: Clayton T McKee; Julie A Last; Paul Russell; Christopher J Murphy
Journal: Tissue Eng Part B Rev Date: 2011-03-21 Impact factor: 6.389

3. Substrate Stiffness Influences the Time Dependence of CTGF Protein Expression in Müller Cells.

Authors: Joshua T Davis; William J Foster
Journal: Int Physiol J Date: 2018-01-22

4. Laser asymmetric ablation method to improve corneal shape.

Authors: José Alberto Rodríguez Agudo; Jinyoung Park; Jina Park; Seongsu Lee; Kisung Park
Journal: Lasers Med Sci Date: 2019-03-22 Impact factor: 3.161

5. Relationship between Postoperative Intraocular Pressure and Refractive Outcomes in Patients after Deep Anterior Lamellar Keratoplasty.

Authors: Dayna Yong Wei Wei; Liang Shen; Ray Manotosh; Anna Tan Wee Tien; Charmaine Chai Hui-Chen
Journal: J Curr Ophthalmol Date: 2022-04-16

6. In vivo study of corneal responses to increased intraocular pressure loading.

Authors: Ahmed Elsheikh; Charles W McMonnies; Charles Whitford; Gavin C Boneham
Journal: Eye Vis (Lond) Date: 2015-12-10

7. Correlation of IOP with Corneal Acoustic Impedance in Porcine Eye Model.

Authors: Jun Zhang; Yi Zhang; Yang Li; Ruimin Chen; K Kirk Shung; Grace Richter; Qifa Zhou
Journal: Biomed Res Int Date: 2017-05-31 Impact factor: 3.411

8. Estimation of the Corneal Young's Modulus In Vivo Based on a Fluid-Filled Spherical-Shell Model with Scheimpflug Imaging.

Authors: Po-Jen Shih; Chun-Ju Huang; Tzu-Han Huang; Hung-Chou Lin; Jia-Yush Yen; I-Jong Wang; Hui-Jyun Cao; Wen-Pin Shih; Chi-An Dai
Journal: J Ophthalmol Date: 2017-11-08 Impact factor: 1.909

9. Ocular Pressure-Volume Relationship and Ganglion Cell Death in Glaucoma.

Authors: Ji-Jie Pang; Samuel M Wu
Journal: OBM Neurobiol Date: 2021-05-20

10. Roles of the ocular pressure, pressure-sensitive ion channel, and elasticity in pressure-induced retinal diseases.

Authors: Ji-Jie Pang
Journal: Neural Regen Res Date: 2021-01 Impact factor: 5.135