Research Article
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Year 2021, , 364 - 371, 30.06.2021
https://doi.org/10.17776/csj.862553

Abstract

References

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  • [2] Fricke T.R., Tahhan N., Resnikoff S., Papas E., Burnett A., Ho S.M., Naduvilath T., Naidoo K.S., Global Prevalence of Presbyopia and Vision Impairment from Uncorrected Presbyopia Systematic Review, Meta-analysis, and Modelling, Ophthalmology, 125(10) (2018) 1492-1499.
  • [3] Organization W.H. Blindness and vision impairment: Refractive errors. 2013 08.01.2021]; Available from: https://www.who.int/news-room/q-a-detail/blindness-and-vision-impairment-refractive-errors.
  • [4] Anonymous, A Simple Way to Improve a Billion Lives: Eyeglasses, in The New York Times2018.
  • [5] Pi L.H., Chen L., Liu Q., Ke N., Fang J., Zhang S., Xiao J., Ye W.J., Xiong Y., Shi H., Zhou X.Y., Yin Z.Q., Prevalence of Eye Diseases and Causes of Visual Impairment in School-Aged Children in Western China, Journal of Epidemiology, 22(1) (2012) 37-44.
  • [6] Dandona R., Dandona L., Naduvilath T.J., Srinivas M., McCarty C.A., Rao G.N., Refractive errors in an urban population in southern India: The Andhra Pradesh Eye Disease Study, Investigative Ophthalmology & Visual Science, 40(12) (1999) 2810-2818.
  • [7] Thorn F., Cruz A.A.V., Machado A.J., Carvalho R.A.C., Refractive status of indigenous people in the northwestern Amazon region of Brazil, Optometry and Vision Science, 82(4) (2005) 267-272.
  • [8] Attebo K., Ivers R.Q., Mitchell P., Refractive errors in an older population - The blue mountains eye study, Ophthalmology, 106(6) (1999) 1066-1072.
  • [9] Abdi S., Lennerstrand G., Pansell T., Rydberg A., Orthoptic findings and asthenopia in a population of Swedish schoolchildren aged 6 to 16 years, Strabismus, 16(2) (2008) 47-55.
  • [10] Ayanniyi A.A., Folorunso F.N., Adepoju F.G., Refractive ocular conditions and reasons for spectacles renewal in a resource-limited economy, BMC Ophthalmol, 10 (2010) 12.
  • [11] Borsting E., Chase C., Tosha C., Ridder W.H., 3rd, Longitudinal study of visual discomfort symptoms in college students, Optom Vis Sci, 85(10) (2008) 992-8.
  • [12] Kosnik W., Winslow L., Kline D., Rasinski K., Sekuler R., Visual changes in daily life throughout adulthood, J Gerontol, 43(3) (1988) P63-70.
  • [13] McGregor L.N., Chaparro A., Visual difficulties reported by low-vision and nonimpaired older adult drivers, Hum Factors, 47(3) (2005) 469-78.
  • [14] Brooks C.W., Borish I.M., Measuring the Interpupillary Distance in System for Ophthalmic Dispensing, H. C.M., Editor, New York: Professional Press, (2007) 25-30.
  • [15] Obstfeld H., Spectacle Frames and their Dispensing in Clinical and Experimental Optometry. 1997.
  • [16] Sasieni L.S., The Principles and Practice of Optical Dispensing and Fitting, London: Butterworths, (1962).
  • [17] Osuobeni E.P., Al-Fahdi M., Differences between anatomical and physiological interpupillary distance, J Am Optom Assoc, 65(4) (1994) 265-71.
  • [18] Valiyaveettil B., Asmin P.T., Vallon R.K., Predictors of Unwanted Prismatic Effect Among Bespectacled Symptomatic Ammetropes (Refractive Error Less Than 4D) With Displaced Optical Centre. , Delhi Journal of Ophthalmology, 28 (2018) 29-31.
  • [19] Jalie M., Ophthalmic lenses and dispensing, London: Butterworth - Heinemann, (2003) 39-52.
  • [20] Khurana A., Theory and practice of optics and refraction. India: Elsevier 2008; pp190-191.
  • [21] Shukla A.V., Clinical Optics Primer for Ophthalmic Medical Personnel (A Guide to Laws, Formulae, Calculations, and Clinical Applications. USA: SLACK Inc. 1950.
  • [22] Topliss W.S., Optical dispensing & workshop practice. London: Butterworths 1975.
  • [23] Tomas J.E., Candela D.M., Amigot B.D., Rodriguez J.P., Ferri C.V., Information and Communication Technologies Applied to Learning the Use of the Lensmeter, 10th International Conference of Education, Research and Innovation (Iceri2017), (2017) 2281-2287.
  • [24] Iki K., Yamasaki S., Test and Measure on Difference of Marginal Homogeneity between Several Square Contingency Tables, International Journal of Applied Mathematics & Statistics, 53(6) (2015) 1-9.
  • [25] Tsalpatouros A., Panoudiamandi O., Papageorgiou C., Rambavillas A., Stefanis C., Uzunoglu N., Koutsouris D., Eye Pupil Diameter Measurement and Assessment Via a Novel Pupilometer System, Technology and Health Care, 2(3) (1994) 209-213.
  • [26] Cidota M.A., Blind Separation for Speech Signals by Minimizing the Contingency Coefficient in the Chi-Square Independence Test, Romanian Journal of Information Science and Technology, 12(1) (2009) 3-12.
  • [27] Moodley V.R., Kadwa F., Nxumalo B., Penceliah S., Ramkalam B., Zama A., Induced prismatic effects due to poorly fitting spectacle frames, The South African Optometrist, 70(4) (2011) 168-174.
  • [28] Ilhan N., Dogan H., Ilhan O., Coskun M., Bulut B.T., Ersekerci T.K., Compatibility of spectacles with their prescriptions in central Anatolia, Semin Ophthalmol, 30(1) (2015) 29-35.
  • [29] Mahadik D. B., Lakshmi R. V., Barshilia H. C., High performance single layer nano-porous antireflection coatings on glass by sol-gel process for solar energy applications. Solar Energy Materials and Solar Cells, 140 (2015) 61-68.
  • [30] Yao L., He J. H., Broadband Antireflective Superhydrophilic Thin Films with Outstanding Mechanical Stability on Glass Substrates. Chinese Journal of Chemistry, 32(6) (2014) 507-512.
  • [31] Yuan J. J., Yan S. Y., Zhang X., Superhydrophilic antifogging broadband antireflective coatings with worm-like nanostructures fabricated by one dip-coating method and calcination. Applied Surface Science, 506 (2020).

Analysis and calculations of decentration amount and prism in eyeglass lenses

Year 2021, , 364 - 371, 30.06.2021
https://doi.org/10.17776/csj.862553

Abstract

The error of refraction is a very common eye disorder. Untreated vision problems put a lot of burden on the global economy annually. One of the most important parameters in the correct treatment of visual defects is the correct assembly of the focal point of the glass. The study was carried out to reveal the decentration differences and the analysis of prism formation after glass assembly according to the prescriptions of 150 customers who came to an optical shop in Eskisehir on Saturdays, 2015-2016. A digital lensmeter was used for the measurement of glasses, and a digital and photographic pupilmeter was used to measure pupillary distances. Chi-square test was used in the frequency study, and differences in glass numbers were used the Marginal Homogeneity Test was used in the analysis of the accuracy of the data. Glass assemblies without decentration were achieved at a rate of 94.66% in distance glasses and 93.33 % in near glasses. When the errors made in applied physics are analyzed, the amount of decentration in the assembly of the glasses that are frequently used in daily life draws attention. In this case, it caused unwanted prism formation.

References

  • [1] Bourne R.R.A., Flaxman S.R., Braithwaite T., Cicinelli M.V., Das A., Jonas J.B., Keeffe J., Kempen J.H., Leasher J., Limburg H., Naidoo K., Pesudovs K., Resnikoff S., Silvester A., Stevens G.A., Tahhan N., Wong T.Y., Taylor H.R., Grp V.L.E., Magnitude, temporal trends, and projections of the global prevalence of blindness and distance and near vision impairment: a systematic review and meta-analysis, Lancet Global Health, 5(9) (2017) 888-897.
  • [2] Fricke T.R., Tahhan N., Resnikoff S., Papas E., Burnett A., Ho S.M., Naduvilath T., Naidoo K.S., Global Prevalence of Presbyopia and Vision Impairment from Uncorrected Presbyopia Systematic Review, Meta-analysis, and Modelling, Ophthalmology, 125(10) (2018) 1492-1499.
  • [3] Organization W.H. Blindness and vision impairment: Refractive errors. 2013 08.01.2021]; Available from: https://www.who.int/news-room/q-a-detail/blindness-and-vision-impairment-refractive-errors.
  • [4] Anonymous, A Simple Way to Improve a Billion Lives: Eyeglasses, in The New York Times2018.
  • [5] Pi L.H., Chen L., Liu Q., Ke N., Fang J., Zhang S., Xiao J., Ye W.J., Xiong Y., Shi H., Zhou X.Y., Yin Z.Q., Prevalence of Eye Diseases and Causes of Visual Impairment in School-Aged Children in Western China, Journal of Epidemiology, 22(1) (2012) 37-44.
  • [6] Dandona R., Dandona L., Naduvilath T.J., Srinivas M., McCarty C.A., Rao G.N., Refractive errors in an urban population in southern India: The Andhra Pradesh Eye Disease Study, Investigative Ophthalmology & Visual Science, 40(12) (1999) 2810-2818.
  • [7] Thorn F., Cruz A.A.V., Machado A.J., Carvalho R.A.C., Refractive status of indigenous people in the northwestern Amazon region of Brazil, Optometry and Vision Science, 82(4) (2005) 267-272.
  • [8] Attebo K., Ivers R.Q., Mitchell P., Refractive errors in an older population - The blue mountains eye study, Ophthalmology, 106(6) (1999) 1066-1072.
  • [9] Abdi S., Lennerstrand G., Pansell T., Rydberg A., Orthoptic findings and asthenopia in a population of Swedish schoolchildren aged 6 to 16 years, Strabismus, 16(2) (2008) 47-55.
  • [10] Ayanniyi A.A., Folorunso F.N., Adepoju F.G., Refractive ocular conditions and reasons for spectacles renewal in a resource-limited economy, BMC Ophthalmol, 10 (2010) 12.
  • [11] Borsting E., Chase C., Tosha C., Ridder W.H., 3rd, Longitudinal study of visual discomfort symptoms in college students, Optom Vis Sci, 85(10) (2008) 992-8.
  • [12] Kosnik W., Winslow L., Kline D., Rasinski K., Sekuler R., Visual changes in daily life throughout adulthood, J Gerontol, 43(3) (1988) P63-70.
  • [13] McGregor L.N., Chaparro A., Visual difficulties reported by low-vision and nonimpaired older adult drivers, Hum Factors, 47(3) (2005) 469-78.
  • [14] Brooks C.W., Borish I.M., Measuring the Interpupillary Distance in System for Ophthalmic Dispensing, H. C.M., Editor, New York: Professional Press, (2007) 25-30.
  • [15] Obstfeld H., Spectacle Frames and their Dispensing in Clinical and Experimental Optometry. 1997.
  • [16] Sasieni L.S., The Principles and Practice of Optical Dispensing and Fitting, London: Butterworths, (1962).
  • [17] Osuobeni E.P., Al-Fahdi M., Differences between anatomical and physiological interpupillary distance, J Am Optom Assoc, 65(4) (1994) 265-71.
  • [18] Valiyaveettil B., Asmin P.T., Vallon R.K., Predictors of Unwanted Prismatic Effect Among Bespectacled Symptomatic Ammetropes (Refractive Error Less Than 4D) With Displaced Optical Centre. , Delhi Journal of Ophthalmology, 28 (2018) 29-31.
  • [19] Jalie M., Ophthalmic lenses and dispensing, London: Butterworth - Heinemann, (2003) 39-52.
  • [20] Khurana A., Theory and practice of optics and refraction. India: Elsevier 2008; pp190-191.
  • [21] Shukla A.V., Clinical Optics Primer for Ophthalmic Medical Personnel (A Guide to Laws, Formulae, Calculations, and Clinical Applications. USA: SLACK Inc. 1950.
  • [22] Topliss W.S., Optical dispensing & workshop practice. London: Butterworths 1975.
  • [23] Tomas J.E., Candela D.M., Amigot B.D., Rodriguez J.P., Ferri C.V., Information and Communication Technologies Applied to Learning the Use of the Lensmeter, 10th International Conference of Education, Research and Innovation (Iceri2017), (2017) 2281-2287.
  • [24] Iki K., Yamasaki S., Test and Measure on Difference of Marginal Homogeneity between Several Square Contingency Tables, International Journal of Applied Mathematics & Statistics, 53(6) (2015) 1-9.
  • [25] Tsalpatouros A., Panoudiamandi O., Papageorgiou C., Rambavillas A., Stefanis C., Uzunoglu N., Koutsouris D., Eye Pupil Diameter Measurement and Assessment Via a Novel Pupilometer System, Technology and Health Care, 2(3) (1994) 209-213.
  • [26] Cidota M.A., Blind Separation for Speech Signals by Minimizing the Contingency Coefficient in the Chi-Square Independence Test, Romanian Journal of Information Science and Technology, 12(1) (2009) 3-12.
  • [27] Moodley V.R., Kadwa F., Nxumalo B., Penceliah S., Ramkalam B., Zama A., Induced prismatic effects due to poorly fitting spectacle frames, The South African Optometrist, 70(4) (2011) 168-174.
  • [28] Ilhan N., Dogan H., Ilhan O., Coskun M., Bulut B.T., Ersekerci T.K., Compatibility of spectacles with their prescriptions in central Anatolia, Semin Ophthalmol, 30(1) (2015) 29-35.
  • [29] Mahadik D. B., Lakshmi R. V., Barshilia H. C., High performance single layer nano-porous antireflection coatings on glass by sol-gel process for solar energy applications. Solar Energy Materials and Solar Cells, 140 (2015) 61-68.
  • [30] Yao L., He J. H., Broadband Antireflective Superhydrophilic Thin Films with Outstanding Mechanical Stability on Glass Substrates. Chinese Journal of Chemistry, 32(6) (2014) 507-512.
  • [31] Yuan J. J., Yan S. Y., Zhang X., Superhydrophilic antifogging broadband antireflective coatings with worm-like nanostructures fabricated by one dip-coating method and calcination. Applied Surface Science, 506 (2020).
There are 31 citations in total.

Details

Primary Language English
Subjects Classical Physics (Other)
Journal Section Natural Sciences
Authors

Hülya Kuru Mutlu 0000-0002-6955-5851

Publication Date June 30, 2021
Submission Date January 16, 2021
Acceptance Date March 12, 2021
Published in Issue Year 2021

Cite

APA Kuru Mutlu, H. (2021). Analysis and calculations of decentration amount and prism in eyeglass lenses. Cumhuriyet Science Journal, 42(2), 364-371. https://doi.org/10.17776/csj.862553