Title of article
Measuring the Ocular Morphological Parameters of Guinea Pig Eye with Edge Detection and Curve Fitting
Author/Authors
Di, Yue Department of Ophthalmology - Shanghai Children’s Hospital - Shanghai Jiaotong University - Shanghai, China , Huang, Ying Department of Ophthalmology - Shanghai Children’s Hospital - Shanghai Jiaotong University - Shanghai, China , Yang, Ya-jing Department of Ophthalmology - East Hospital Affiliated to Tongji University - Shanghai, China , Zhou, Xing-Tao Department of Ophthalmology - Eye & ENT Hospital Fudan University - Shanghai, China , Luo, Wen-ting Department of Ophthalmology - Shanghai Children’s Hospital - Shanghai Jiaotong University - Shanghai, China , Ye, Hai-yun Department of Ophthalmology - Shanghai Children’s Hospital - Shanghai Jiaotong University - Shanghai, China , Qiao, Zhong-bao Department of Ophthalmology - Shanghai Children’s Hospital - Shanghai Jiaotong University - Shanghai, China , Lu, Na Department of Radiology - Huashan Hospital North - Fudan University - Shanghai, China , Qiao, Tong Department of Ophthalmology - Shanghai Children’s Hospital - Shanghai Jiaotong University - Shanghai, China
Pages
12
From page
1
To page
12
Abstract
To identify the guinea pig eyeball with edge detection and curve fitting and devise a noncontact technology of measuring
ocular morphological parameters of small experimental animal. Methods. Thirty-nine eyeballs of guinea pig eyeballs were
photographed to obtain the anterior and posterior surface; transverse and sagittal planes after the eyeballs were eviscerated.
Next, the eyeball photos were input into digital image analysis software; the corresponding photo pixels-actual length ratio was
acquired by a proportional scale. The contour lines of the eyeballs were identified by edge detection technology; conic curve
fitting was applied to fit the contour line of the eyeball. The maximum and minimum diameters, the horizontal and vertical
diameters, eccentricity, tilt angle, cross-sectional area, equatorial circumference, retrobulbar equatorial maximum length, corneal
radius of curvature (CRC) in central region, and the whole cornea were calculated according to the geometric principles. The
corneal data of in vitro study were compared with the in vivo results. Results. The contour line of the selected guinea pig eye was
identified correctly by edge detection. There were no significant differences between anterior and posterior surfaces of one
eyeball in the maximum diameters, eccentricity, cross-sectional area, equatorial circumference, and tilt angle (P > 0:01). There
were significant differences of eccentricity and CRC between central region and the whole cornea (P < 0:01). There were no
significant differences between keratometer in vivo and cornea in vitro. Conclusion. It was feasible to measure an experimental
animal eye in a noncontact way. Edge detection and curve fitting technology could accurately evaluate the ocular morphological
parameters.
Keywords
Guinea , Detection , Eye , CRC , Fitting
Journal title
Computational and Mathematical Methods in Medicine
Serial Year
2020
Full Text URL
Record number
2612087
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