Relationship of axial length and corneal biomechanical properties with susceptibility to unilateral normal-tension glaucoma

2021 ◽  
Author(s):  
Ying-Yi Chen ◽  
Tsing-Hong Wang ◽  
Jehn-Yu Huang ◽  
Chien-Chia Su
Keyword(s):  
Axial Length ◽  
Biomechanical Properties ◽  
Normal Tension Glaucoma ◽  
Relationship Of ◽  
Corneal Biomechanical Properties

scholarly journals Role of corneal biomechanical properties in predicting of speed of myopic progression in children wearing orthokeratology lenses or single-vision spectacles

2018 ◽  
Vol 3 (1) ◽  
pp. e000204 ◽  
Author(s):  
Kin Wan ◽  
Sin Wan Cheung ◽  
James S Wolffsohn ◽  
Janis B Orr ◽  
Pauline Cho
Keyword(s):  
Axial Length ◽  
Corneal Thickness ◽  
Significant Negative Correlation ◽  
Biomechanical Properties ◽  
Corneal Hysteresis ◽  
Axial Elongation ◽  
Single Vision ◽  
Length Data ◽  
Corneal Biomechanical Properties

ObjectiveTo determine the characteristics of children who were likely to progress rapidly and gain the greatest benefit from orthokeratology (ortho-k) treatment.Methods and analysisThe files of 113 children who participated in two myopia control studies and wore either ortho-k lenses (n=62) or single-vision spectacles (SVS) (n=51) were reviewed. Baseline cycloplegic subjective refraction, central corneal thickness, axial length, keratometry, intraocular pressure, corneal biomechanical properties and 24-month axial length data were retrieved and analysed.ResultsMultivariate analysis showed that there was significant negative correlation between axial elongation and baseline age and corneal hysteresis (p<0.05) in the SVS group. In the ortho-k group, only baseline age was significantly and negatively associated with axial elongation (p<0.01).ConclusionCorneal biomechanical properties and baseline age can predict the rate of axial elongation in myopic children. It may be beneficial for younger myopic children with low corneal hysteresis to commence ortho-k treatment as early as possible.

scholarly journals Corneal biomechanical properties in myopic eyes evaluated via Scheimpflug imaging

2020 ◽  
Author(s):  
A-Yong Yu ◽  
Hui Shao ◽  
Anpeng Pan ◽  
Qinmei Wang ◽  
Zixu Huang ◽  
...  
Keyword(s):  
Axial Length ◽  
High Myopia ◽  
Anterior Segment ◽  
Biomechanical Properties ◽  
Corvis St ◽  
Negatively Associated ◽  
Scheimpflug Imaging ◽  
Biomechanical Parameters ◽  
Corneal Biomechanical Properties ◽  
Myopia Control

Abstract Background: To investigate the biomechanical properties of the cornea in myopic eyes using corneal visualization scheimpflug technology (Corvis ST). The relationships between the biomechanical properties of the cornea and the degree of myopia were also investigated.Methods: 265 eyes of 265 subjects were included. Based on spherical equivalent (SE) in diopters (D), participants were divided into four groups: low myopia/control (SE: -0.50 to -3.00D), moderate myopia (SE: -3.00 to -6.00D), high myopia (SE: -6.00 to -10.00D) and severe myopia (SE greater than -10.00D). Axial length (AL), anterior segment parameters, and corneal biomechanical properties were obtained with the Lenstar LS900, Pentacam HR and Corvis ST, respectively.Results: Mean (±SD) SE was -7.29±4.31D (range: -0.63 to -25.75D). Mean AL was 26.31±1.82mm (range: 21.87 to 31.94mm). Significant differences were detected within the four groups in terms of six corneal biomechanical parameters: deformation amplitude (DA), time from start until second applanation (A2-time), length of flattened cornea at the second applanation (A2-length), corneal velocity during the first and second applanation (A2-velocity), time from start to highest concavity (HC-time), and central curvature at highest concavity (HC radius). AL was positively associated with DA whereas negatively associated with A1-velocity and A2-length. SE was positively associated with A2-time, HC-time and A2-velocity, whereas negatively associated with DA. IOP was positively associated with four corneal biomechanical parameters and negatively associated with three parameters.Conclusions: Eyes with severe myopia showed greater DA, lesser A2 time, HC time, and faster A2-velocity compared to low to high myopia. This suggests the cornea becomes weaker and more deformable with elongation of axial length with corresponding increases in myopia. DA, A2-time and A2-velocity could be useful corneal biomechanical indicators in patients with myopia.

scholarly journals Corneal Biomechanics Determination in Healthy Myopic Subjects

2016 ◽  
Vol 2016 ◽  
pp. 1-6 ◽  
Author(s):  
Kunliang Qiu ◽  
Xuehui Lu ◽  
Riping Zhang ◽  
Geng Wang ◽  
Mingzhi Zhang
Keyword(s):  
Regression Analysis ◽  
Intraocular Pressure ◽  
Axial Length ◽  
Multivariate Regression ◽  
Biomechanical Properties ◽  
Corneal Biomechanics ◽  
Ocular Response Analyzer ◽  
Corneal Curvature ◽  
Factors Associated ◽  
Corneal Biomechanical Properties

Purpose. To determine the corneal biomechanical properties by using the Ocular Response Analyzer™and to investigate potential factors associated with the corneal biomechanics in healthy myopic subjects.Methods. 135 eyes from 135 healthy myopic subjects were included in this cross-sectional observational study. Cornea hysteresis (CH), corneal resistance factor (CRF), cornea-compensated intraocular pressure (IOPcc), and Goldmann-correlated intraocular pressure (IOPg) were determined with the Reichert Ocular Response Analyzer (ORA). Univariate and multivariate regression analyses were performed to investigate factors associated with corneal biomechanics.Results. The mean CH and CRF were9.82±1.34 mmHg and9.64±1.57 mmHg, respectively. In univariate regression analysis, CH was significantly correlated with axial length, refraction, central corneal thickness (CCT), and IOPg (r=-0.27, 0.23, 0.45, and 0.21, resp.; all withp≤0.015), but not with corneal curvature or age; CRF was significantly correlated with CCT and IOPg (r=0.52and 0.70, resp.; all withp<0.001), but not with axial length/refraction, corneal curvature, or age. In multivariate regression analysis, axial length, IOPcc, and CCT were found to be independently associated with CH, while CCT and IOPg were associated with CRF.Conclusions. Both CH and CRF were positively correlated with CCT. Lower CH but not CRF was associated with increasing degree of myopia. Evaluation of corneal biomechanical properties should take CCT and myopic status into consideration.

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