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http://dx.doi.org/10.15205/kschs.2018.03.31.1083

The Effect of Stereoscopic Vision According to Lens Color Change of Sunglasses  

Kim, Bong-Hwan (Department of Optometry, Choonhae College of Health Sciences)
Han, Sun-Hee (Department of Optometry, Choonhae College of Health Sciences)
Shin, Ji-Eun (Department of Optometry, Choonhae College of Health Sciences)
Kim, Hye-Ryeong (Department of Optometry, Choonhae College of Health Sciences)
Kang, Bo-Gyeong (Department of Optometry, Choonhae College of Health Sciences)
Park, Jeong-Hyeon (Department of Optometry, Choonhae College of Health Sciences)
Publication Information
Journal of Korean Clinical Health Science / v.6, no.1, 2018 , pp. 1083-1088 More about this Journal
Abstract
Purpose. The purpose of this study was to investigate the effect of lens color of sunglasses on stereoacuity by experiment. Methods. We conducted a stereotaxic test using a RANDOM DOT with a polarizing lens at an examination distance of 40 cm in 100 men and women aged 20 to 60 years without any specific ocular disease. Then, seven kinds of PVC color film such as yellow, black, brown, red, purple, blue and green were put on the polarizing lens and the stereoscopic examination was carried out again. Results. When the lens color of the sunglasses is yellow, black, and brown, it affects less stereoscopic effect. However, red, purple, blue, and green have much influence on stereoscopic effect. Especially, the red and purple colors affected the stereoscopic vision. In blue and green, the effect of stereoscopic vision was different according to the people. Conclusions. Depending on the lens color of the sunglasses, stereoscopic vision is affected, which can cause problems in binocular vision. Therefore, when choosing sunglass lens color, many buyers need to pay attention.
Keywords
Binocular vision; Lens color; Stereoscopic; Sunglass; Tinted lens;
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  • Reference
1 Kang HS, Introduction to Optometry, 3nd Ed. Seoul: Sinkwang Publishing Company, 2005;377.
2 Ciner EB, Schanel-Klitsch E, Herzberg C: Stereoacuity Development: 6 Months to 5 Years. A New Tool for Testing and Screening. Optom. Vis. Sci. 1996; 73(1):43-48.   DOI
3 Birch EE, Salomao S: Infant Random Dot Stereoacuity Cards. J. Pediatr. Ophthalmol. Strabhmus. 1998; 35(2):86-90.
4 Jung JH: A study on the optimization of tinted lens, Chonnam National University Master's Thesis, 2002;1-2.
5 Aarnisalo E: Effects of yellow filter glasses on colour discrimination of normal observers and on the illumination level. Acta Ophthalmol (Copenh). 1987;65(3):274-278.   DOI
6 Wolffsohn JS, Cochrane AL, Khoo H, et al.: Contrast is enhanced by yellow lenses because of selective reduction of short-wave length light. Optom. Vis. Sci. 2000;77(2):73-81.   DOI
7 Provines WF, Harville B, Block M: Effects of yellow optical filters on contrast sensitivity function of albino patients. J. Am. Optom. Assoc. 1997;68(6):353-359.
8 Leguire LE, Suh S: Effect of light filters on contrast sensitivity function in normal and retinal degeneration subjects. Ophthalmic Physiol. Opt. 1993;13(2):124-128.   DOI
9 Zigman S: Light filters to improve vision. Optom. Vis. Sci. 1992;69(4):325-328.   DOI
10 Chun YY, Joo SH, Park SJ: Effect of Distance Phoria on Stereoacuity. J. Korean Oph. Opt. Soc. 2008;13(1):101-105.
11 Hecht S, Hendley CD, Ross S, et al.: The effect of exposure to sunlight on night vision. Am. J. Ophthalmol. 1984;31(12):1573-1580.
12 Ma GJ, The Luminous Transmittance of Dyed CR-39 Lenses. Journal of Health and the College of Seoul 12, 1992;165-170.
13 Yoon MH, Ryu GC. A Change of Stereopsis in Accordance with the Concentration and Colors of Tinted Spectacle Lenses, Korean J. Vis. Sci. 2013;15(3):263-272.
14 O HJ, Jeong MA, Ma GJ, et al.: The Evaluation of the Color Vision Enhancement with Enhanced Color Vision Lenses. Korean J. Vis. Sci. 2003;5(1):37-44.