Literature DB >> 24357844

Clinical management of progressive myopia.

T A Aller1.   

Abstract

Myopia has been increasing in prevalence throughout the world, reaching over 90% in some East Asian populations. There is increasing evidence that whereas genetics clearly have an important role, the type of visual environment to which one is exposed to likely influences the onset, progression, and cessation of myopia. Consequently, attempts to either modify the environment or to reduce the exposure of the eye to various environmental stimuli to eye growth through the use of various optical devices are well under way at research centers around the globe. The most promising of current treatments include low-percentage atropine, bifocal soft contact lenses, orthokeratology, and multifocal spectacles. These methods are discussed briefly and are then categorized in terms of their expected degree of myopia progression control. A clinical strategy is presented for selecting the most effective treatment for the appropriate type of patient at the optimal stage of refractive development to achieve the maximum control of myopia progression.

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Year:  2013        PMID: 24357844      PMCID: PMC3930271          DOI: 10.1038/eye.2013.259

Source DB:  PubMed          Journal:  Eye (Lond)        ISSN: 0950-222X            Impact factor:   3.775


  36 in total

1.  The role of optical defocus in regulating refractive development in infant monkeys.

Authors:  E L Smith; L F Hung
Journal:  Vision Res       Date:  1999-04       Impact factor: 1.886

2.  Rates of childhood myopia progression with bifocals as a function of nearpoint phoria: consistency of three studies.

Authors:  D A Goss; T Grosvenor
Journal:  Optom Vis Sci       Date:  1990-08       Impact factor: 1.973

3.  Changes in ocular refraction and its components among medical students--a 5-year longitudinal study.

Authors:  L L Lin; Y F Shih; Y C Lee; P T Hung; P K Hou
Journal:  Optom Vis Sci       Date:  1996-07       Impact factor: 1.973

4.  The pattern of myopia in young Singaporean men.

Authors:  S J Chew; S C Chia; L K Lee
Journal:  Singapore Med J       Date:  1988-06       Impact factor: 1.858

5.  Ocular predictors of the onset of juvenile myopia.

Authors:  K Zadnik; D O Mutti; N E Friedman; P A Qualley; L A Jones; P Qui; H S Kim; J C Hsu; M L Moeschberger
Journal:  Invest Ophthalmol Vis Sci       Date:  1999-08       Impact factor: 4.799

6.  The longitudinal orthokeratology research in children (LORIC) in Hong Kong: a pilot study on refractive changes and myopic control.

Authors:  Pauline Cho; Sin Wan Cheung; Marion Edwards
Journal:  Curr Eye Res       Date:  2005-01       Impact factor: 2.424

7.  IQ and the association with myopia in children.

Authors:  Seang-Mei Saw; Say-Beng Tan; Daniel Fung; Kee-Seng Chia; David Koh; Donald T H Tan; Richard A Stone
Journal:  Invest Ophthalmol Vis Sci       Date:  2004-09       Impact factor: 4.799

8.  Houston Myopia Control Study: a randomized clinical trial. Part II. Final report by the patient care team.

Authors:  T Grosvenor; D M Perrigin; J Perrigin; B Maslovitz
Journal:  Am J Optom Physiol Opt       Date:  1987-07

9.  Effect of bifocal lenses on the rate of childhood myopia progression.

Authors:  D A Goss
Journal:  Am J Optom Physiol Opt       Date:  1986-02

10.  A randomized clinical trial of progressive addition lenses versus single vision lenses on the progression of myopia in children.

Authors:  Jane Gwiazda; Leslie Hyman; Mohamed Hussein; Donald Everett; Thomas T Norton; Daniel Kurtz; M Cristina Leske; Ruth Manny; Wendy Marsh-Tootle; Mitch Scheiman
Journal:  Invest Ophthalmol Vis Sci       Date:  2003-04       Impact factor: 4.799
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  9 in total

Review 1.  RPE and Choroid Mechanisms Underlying Ocular Growth and Myopia.

Authors:  Yan Zhang; Christine F Wildsoet
Journal:  Prog Mol Biol Transl Sci       Date:  2015-07-23       Impact factor: 3.622

Review 2.  Changes in axial length after orthokeratology lens treatment for myopia: a meta-analysis.

Authors:  Meng Guan; Weijia Zhao; Yu Geng; Yang Zhang; Jia Ma; Zonghan Chen; Mingqian Peng; Yan Li
Journal:  Int Ophthalmol       Date:  2020-01-08       Impact factor: 2.031

3.  A machine learning-based algorithm used to estimate the physiological elongation of ocular axial length in myopic children.

Authors:  Tao Tang; Zekuan Yu; Qiong Xu; Zisu Peng; Yuzhuo Fan; Kai Wang; Qiushi Ren; Jia Qu; Mingwei Zhao
Journal:  Eye Vis (Lond)       Date:  2020-10-22

4.  The increasing prevalence of myopia in junior high school students in the Haidian District of Beijing, China: a 10-year population-based survey.

Authors:  Yan Li; Jia Liu; Pengcheng Qi
Journal:  BMC Ophthalmol       Date:  2017-06-12       Impact factor: 2.209

5.  Factors related to axial length elongation and myopia progression in orthokeratology practice.

Authors:  Bingjie Wang; Rajeev K Naidu; Xiaomei Qu
Journal:  PLoS One       Date:  2017-04-18       Impact factor: 3.240

6.  Myopia onset and role of peripheral refraction.

Authors:  Maurilia Rotolo; Giancarlo Montani; Raul Martin
Journal:  Clin Optom (Auckl)       Date:  2017-06-16

7.  The Role of Bottom-Up and Top-Down Cortical Interactions in Adaptation to Natural Scene Statistics.

Authors:  Selam W Habtegiorgis; Christian Jarvers; Katharina Rifai; Heiko Neumann; Siegfried Wahl
Journal:  Front Neural Circuits       Date:  2019-02-13       Impact factor: 3.492

8.  Mandated Kindergarten Eye Examinations in a US Suburban Clinic: Is It Worth the Cost?

Authors:  Noha Ekdawi; Michael A Kipp; Matthew P Kipp
Journal:  Clin Ophthalmol       Date:  2021-03-29

9.  Interventions to control myopia progression in children: protocol for an overview of systematic reviews and meta-analyses.

Authors:  Efthymia Prousali; Asimina Mataftsi; Nikolaos Ziakas; Andreas Fontalis; Periklis Brazitikos; Anna-Bettina Haidich
Journal:  Syst Rev       Date:  2017-09-11
  9 in total

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