Update Utilities of Contact Lens in Recent Years and Next Decade
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Published:
Apr 1, 2018
Keywords:
Contact lens slow myopia progression orthokeratology soft multifocal contact lens future contact lens
Main Article Content
Abstract
Nowadays contact lenses become popular worldwide and are considered medical device for correction of vision errors instead of eye glasses, and for cosmetic purpose. However, patients with corneal disease such as keratoconus or other eye diseases need contact lens to achieve good quality of vision. Many preliminary studies indicated that orthokeratology or soft multifocal contact lens in children may slow myopia progression. In the future decades, contact lens will possibly be provided by various modalities for example: measurement of tear glucose levels instead of blood glucose in diabetes patients and delay the progression of many eye diseases, which are still under investigation.
Article Details
How to Cite
Supiyaphun, C., & Jongkajornpong, P. (2018). Update Utilities of Contact Lens in Recent Years and Next Decade. Vajira Medical Journal : Journal of Urban Medicine, 62(2), 127–144. Retrieved from https://he02.tci-thaijo.org/index.php/VMED/article/view/195723
Section
Review Articles
References
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8. Wahl S, Fornoff L, Ochakovski GA, Ohlendorf A. Disability glare in soft multifocal contact lenses. Cont Lens Anterior Eye. 2018;41(2):175-9.
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11. Smith MJ, Walline JJ. Controlling myopia progression in children and adolescents. Adoles Health Med Ther. 2015;6: 133-40
12. Li SM, Kang MT, Wu SS, Meng B, Sun YY, Wei SF, et al. Studies using concentric ring bifocal and peripheral add multifocal contact lenses to slow myopia progression in school-aged children: a meta-analysis. Ophthalmic Physiol Opt. 2017;37(1): 51-9
13. Aller TA, Lui M, Wildsoet CF. Myopia control with bifocal contact lenses: A randomized clinical trial. Optom Vis Sci. 2016; 93(4): 344-52
14. Cooper J, O’Connor B, Watanabe R, Fuerst R, Berger S, Eisenberg N, et al. Case series analysis of myopia progression control with a unique extended depth of focus multifocal contact lens. Eye Contact Lens. 2017 Oct 19. [Epub ahead of print]
15. Kang P, McAlinden C, Wildsoet CF. Effects of soft contact lenses used to slow myopia progression on quality of vision in young adults. Acta Ophthalmol. 2017; 95(1):e43-53.
16. Santadomingo-Rubido J, Villa-Collar C, Gilmartin B, Gutierrez-Ortega R, Sugimoto K. Long-term efficacy of orthokeratology contact lens wear in controlling the progression of childhood myopia. Curr Eye Res. 2017; 42(5): 713-20.
17. Russell B, Dubois L, Lynn M, Ward MA, Lambert SR, Infant aphakia treatment study group. The infant aphakia treatment study contact lens experience to age 5 years. Eye Contact Lens.2017;43(6): 352-7.
18. Siegil IM. The X-Chrom lens. On seeing red. Surv Ophthalmol. 1981;25(5): 312-24
19. Erickson GB, Horn FC, Barney T, Pexton B, baird RY. Visual performance with sport-tinted contact lenses in natural sunlight. Optom Vis Sci. 2009;86(5):509-16
20. Badugu R, Lakowicz JR, Geddes CD. Noninvasive continuous monitoring of physiological glucose using a monosaccharide-sensing contact lens. Anal Chem. 2004;76(3): 610-8
21. Carvalho IM, Marques CS, Oliveira RS, Coelho PB, Costa PC, Ferreira DC. Sustained drug release by contact lenses for glaucoma treatment-A review. J Control Release. 2015;202: 76-82
22. Hui A, Bajgrowicz-Cieslak M, Phan CM, Jones L. In vitro release of two anti-muscarinic drugs from soft contact lenses. Clin Ophthalmol. 2017;11:1657-65
23. Malakooti N, Alexander C, Alvarez-Lorenzo C. Imprinted contact lenses for sustained release of polymyxin B and related antimicrobial peptides. J Pharm Sci. 2015;104(10): 3386-94
2. Cope JR, Collier SA, Rao MM, Chalmers R, Mitchell GL, Richdale K, et al. Contact lens wearer demographics and risk behaviors for contact lens-related eye infections — United States, 2014: Morb Mortal Wkly Rep (MMWR).2015;64(32): 865-70
3. Cox SM, Berntsen DA, Brickle KM, Mathew JH, Powell DR, Little BK, et al. Efficacy of toric contact lens in fitting and patient-reported outcomes in contact lens wearers. Eye Contact lens. 2017 Sep 21. [Epub ahead of print]
4. Nau CB, Harthan J, Shorter E, Baw J, Nau A, Chimato NT, et al. Demographic characteristics and prescribing patterns of scleral lens fitters: The SCOPE study. Eye Contact Lens. 2017 Jun 14. [Epub ahead of print]
5. Nombela-Palomo M, Felipe-Marquez G, Teus MA, Hernandez-Verdejo JL, Nieto-Bona A. Lonh-term impacts of orthokeratolody treatment on sub basal nerve plexus and corneal sensitivity responses and their reversibility. Eye Contact Lens. 2017 Apr 13. [Epub ahead of print]
6. Lum E, Golebiowski B, Swarbrick HA. Reduced corneal sensitivity and sub-basal nerve density in long-term orthokeratology lens wear. Eye Contact Lens. 2017; 43(4):218-24.
7. Contact lens. In: American academy of ophthalmology. Clinical optics BCSC basic and clinical course; 2016-2017. P 151-193
8. Wahl S, Fornoff L, Ochakovski GA, Ohlendorf A. Disability glare in soft multifocal contact lenses. Cont Lens Anterior Eye. 2018;41(2):175-9.
9. Perez-Prados R, Pinero DP, Perez-Cambrodi RJ, Madrid-Costa D. Soft multifocal simultaneous image contact lenses: a review. Clin Exp Optom. 2017;100(2): 107-27
10. Sankaridurg P. Contact lenses to slow progression of myopia. Clin Exp Optom. 2017;100(5):432-7
11. Smith MJ, Walline JJ. Controlling myopia progression in children and adolescents. Adoles Health Med Ther. 2015;6: 133-40
12. Li SM, Kang MT, Wu SS, Meng B, Sun YY, Wei SF, et al. Studies using concentric ring bifocal and peripheral add multifocal contact lenses to slow myopia progression in school-aged children: a meta-analysis. Ophthalmic Physiol Opt. 2017;37(1): 51-9
13. Aller TA, Lui M, Wildsoet CF. Myopia control with bifocal contact lenses: A randomized clinical trial. Optom Vis Sci. 2016; 93(4): 344-52
14. Cooper J, O’Connor B, Watanabe R, Fuerst R, Berger S, Eisenberg N, et al. Case series analysis of myopia progression control with a unique extended depth of focus multifocal contact lens. Eye Contact Lens. 2017 Oct 19. [Epub ahead of print]
15. Kang P, McAlinden C, Wildsoet CF. Effects of soft contact lenses used to slow myopia progression on quality of vision in young adults. Acta Ophthalmol. 2017; 95(1):e43-53.
16. Santadomingo-Rubido J, Villa-Collar C, Gilmartin B, Gutierrez-Ortega R, Sugimoto K. Long-term efficacy of orthokeratology contact lens wear in controlling the progression of childhood myopia. Curr Eye Res. 2017; 42(5): 713-20.
17. Russell B, Dubois L, Lynn M, Ward MA, Lambert SR, Infant aphakia treatment study group. The infant aphakia treatment study contact lens experience to age 5 years. Eye Contact Lens.2017;43(6): 352-7.
18. Siegil IM. The X-Chrom lens. On seeing red. Surv Ophthalmol. 1981;25(5): 312-24
19. Erickson GB, Horn FC, Barney T, Pexton B, baird RY. Visual performance with sport-tinted contact lenses in natural sunlight. Optom Vis Sci. 2009;86(5):509-16
20. Badugu R, Lakowicz JR, Geddes CD. Noninvasive continuous monitoring of physiological glucose using a monosaccharide-sensing contact lens. Anal Chem. 2004;76(3): 610-8
21. Carvalho IM, Marques CS, Oliveira RS, Coelho PB, Costa PC, Ferreira DC. Sustained drug release by contact lenses for glaucoma treatment-A review. J Control Release. 2015;202: 76-82
22. Hui A, Bajgrowicz-Cieslak M, Phan CM, Jones L. In vitro release of two anti-muscarinic drugs from soft contact lenses. Clin Ophthalmol. 2017;11:1657-65
23. Malakooti N, Alexander C, Alvarez-Lorenzo C. Imprinted contact lenses for sustained release of polymyxin B and related antimicrobial peptides. J Pharm Sci. 2015;104(10): 3386-94