Myopia

[1]  M. He,et al.  Association of Age at Myopia Onset With Risk of High Myopia in Adulthood in a 12-Year Follow-up of a Chinese Cohort. , 2020, JAMA ophthalmology.

[2]  David A. Berntsen,et al.  Effect of High Add Power, Medium Add Power, or Single-Vision Contact Lenses on Myopia Progression in Children: The BLINK Randomized Clinical Trial. , 2020, JAMA.

[3]  Y. Kanda,et al.  Efficacy of combined orthokeratology and 0.01% atropine solution for slowing axial elongation in children with myopia: a 2-year randomised trial , 2020, Scientific Reports.

[4]  N. Congdon,et al.  Prevention of myopia, China , 2020, Bulletin of the World Health Organization.

[5]  C. Klaver,et al.  Meta-analysis of 542,934 subjects of European ancestry identifies new genes and mechanisms predisposing to refractive error and myopia , 2020, Nature Genetics.

[6]  Pei-Chang Wu,et al.  Increased Time Outdoors Is Followed by Reversal of the Long-Term Trend to Reduced Visual Acuity in Taiwan Primary School Students. , 2020, Ophthalmology.

[7]  Yu Meng Wang,et al.  High prevalence of myopia in children and their parents in Hong Kong Chinese Population: the Hong Kong Children Eye Study , 2020, Acta ophthalmologica.

[8]  S. Saw,et al.  The association between digital screen time and myopia: A systematic review , 2020, Ophthalmic & physiological optics : the journal of the British College of Ophthalmic Opticians.

[9]  M. Saatchi,et al.  The Prevalence and Risk Factors for Keratoconus: A Systematic Review and Meta-Analysis. , 2019, Cornea.

[10]  B. Yip,et al.  Two-Year Clinical Trial of the Low-Concentration Atropine for Myopia Progression (LAMP) Study: Phase 2 Report. , 2019, Ophthalmology.

[11]  Weizhong Lan,et al.  An Objective Comparison of Light Intensity and Near-Visual Tasks Between Rural and Urban School Children in China by a Wearable Device Clouclip , 2019, Translational vision science & technology.

[12]  K. Tsubota,et al.  Current Prevalence of Myopia and Association of Myopia With Environmental Factors Among Schoolchildren in Japan. , 2019, JAMA ophthalmology.

[13]  Jeremy A Guggenheim,et al.  Association Between Polygenic Risk Score and Risk of Myopia , 2019, JAMA ophthalmology.

[14]  A. Barak,et al.  Association Between Type of Educational System and Prevalence and Severity of Myopia Among Male Adolescents in Israel. , 2019, JAMA ophthalmology.

[15]  N. Logan,et al.  A 3-year Randomized Clinical Trial of MiSight Lenses for Myopia Control , 2019, Optometry and vision science : official publication of the American Academy of Optometry.

[16]  S. Gilson,et al.  The association between L:M cone ratio, cone opsin genes and myopia susceptibility , 2019, Vision Research.

[17]  M. He,et al.  Contribution of Genome-Wide Significant Single Nucleotide Polymorphisms in Myopia Prediction: Findings from a 10-year Cohort of Chinese Twin Children. , 2019, Ophthalmology.

[18]  J. Qu,et al.  Changes in Choroidal Thickness and Choroidal Blood Perfusion in Guinea Pig Myopia. , 2019, Investigative ophthalmology & visual science.

[19]  Fabian Conrad,et al.  Myopia control with novel central and peripheral plus contact lenses and extended depth of focus contact lenses: 2 year results from a randomised clinical trial , 2019, Ophthalmic & physiological optics : the journal of the British College of Ophthalmic Opticians.

[20]  F. Schaeffel,et al.  Probing the Potency of Artificial Dynamic ON or OFF Stimuli to Inhibit Myopia Development. , 2019, Investigative ophthalmology & visual science.

[21]  M. Bullimore,et al.  Myopia Control: Why Each Diopter Matters. , 2019, Optometry and vision science : official publication of the American Academy of Optometry.

[22]  C. To,et al.  Defocus Incorporated Multiple Segments (DIMS) spectacle lenses slow myopia progression: a 2-year randomised clinical trial , 2019, British Journal of Ophthalmology.

[23]  Jonathan H. Morgan,et al.  Quantile regression analysis reveals widespread evidence for gene-environment or gene-gene interactions in myopia development , 2019, Communications Biology.

[24]  D. Alonso-Caneiro,et al.  Influence of the time of day on axial length and choroidal thickness changes to hyperopic and myopic defocus in human eyes , 2019, Experimental eye research.

[25]  K. Naidoo,et al.  Potential Lost Productivity Resulting from the Global Burden of Myopia: Systematic Review, Meta-analysis, and Modeling. , 2019, Ophthalmology.

[26]  P. Sankaridurg,et al.  IMI - Clinical Management Guidelines Report. , 2019, Investigative ophthalmology & visual science.

[27]  C. Klaver,et al.  IMI – Myopia Genetics Report , 2019, Investigative ophthalmology & visual science.

[28]  Lisa A. Ostrin,et al.  IMI – Report on Experimental Models of Emmetropization and Myopia , 2019, Investigative ophthalmology & visual science.

[29]  Earl L. Smith,et al.  Myopia – A 21st Century Public Health Issue , 2019, Investigative ophthalmology & visual science.

[30]  S. Yip,et al.  A Genome-Wide Association Study for Susceptibility to Visual Experience-Induced Myopia , 2019, Investigative ophthalmology & visual science.

[31]  Highlights. , 2019, JAMA ophthalmology.

[32]  J. Jonas,et al.  Posterior staphyloma in pathologic myopia , 2018, Progress in Retinal and Eye Research.

[33]  C. Pang,et al.  Low-Concentration Atropine for Myopia Progression (LAMP) Study: A Randomized, Double-Blinded, Placebo-Controlled Trial of 0.05%, 0.025%, and 0.01% Atropine Eye Drops in Myopia Control. , 2019, Ophthalmology.

[34]  H. Yim,et al.  Correction: The high prevalence of myopia in Korean children with influence of parental refractive errors: The 2008-2012 Korean National Health and Nutrition Examination Survey , 2018, PloS one.

[35]  Xiaohang Wu,et al.  Prediction of myopia development among Chinese school-aged children using refraction data from electronic medical records: A retrospective, multicentre machine learning study , 2018, PLoS medicine.

[36]  Lisa A. Ostrin,et al.  Narrow‐band, long‐wavelength lighting promotes hyperopia and retards vision‐induced myopia in infant rhesus monkeys , 2018, Experimental eye research.

[37]  Alexandra Benavente-Perez,et al.  Gene expression in response to optical defocus of opposite signs reveals bidirectional mechanism of visually guided eye growth , 2018, PLoS biology.

[38]  T. Wong,et al.  Prevalence, Risk Factors, and Impact of Myopic Macular Degeneration on Visual Impairment and Functioning Among Adults in Singapore. , 2018, Investigative ophthalmology & visual science.

[39]  P. Tien,et al.  The Synergistic Effects of Orthokeratology and Atropine in Slowing the Progression of Myopia , 2018, Journal of clinical medicine.

[40]  T. Fujikado,et al.  Effect of spectacle lenses designed to reduce relative peripheral hyperopia on myopia progression in Japanese children: a 2-year multicenter randomized controlled trial , 2018, Japanese Journal of Ophthalmology.

[41]  F. Schaeffel,et al.  Reading and Myopia: Contrast Polarity Matters , 2018, Scientific Reports.

[42]  Changqing Zeng,et al.  Scleral hypoxia is a target for myopia control , 2018, Proceedings of the National Academy of Sciences.

[43]  Y. Kanda,et al.  Additive effects of orthokeratology and atropine 0.01% ophthalmic solution in slowing axial elongation in children with myopia: first year results , 2018, Japanese Journal of Ophthalmology.

[44]  Wei Wang,et al.  The increasing prevalence of myopia and high myopia among high school students in Fenghua city, eastern China: a 15-year population-based survey , 2018, BMC Ophthalmology.

[45]  G. Smith,et al.  Education and myopia: assessing the direction of causality by mendelian randomisation , 2018, British Medical Journal.

[46]  Jonathan H. Morgan,et al.  Genome-wide association meta-analysis highlights light-induced signaling as a driver for refractive error , 2018, Nature Genetics.

[47]  F. Ferris,et al.  Public Health Burden and Potential Interventions for Myopia. , 2018, Ophthalmology.

[48]  K. Pesudovs,et al.  Uncorrected and corrected refractive error experiences of Nepalese adults: a qualitative study , 2018, Ophthalmic epidemiology.

[49]  R. Klein,et al.  Prevalence and Characteristics of Myopic Degeneration in an Adult Chinese American Population: The Chinese American Eye Study. , 2018, American journal of ophthalmology.

[50]  P. D. de Jong Myopia: its historical contexts , 2018, British Journal of Ophthalmology.

[51]  S. Chiou,et al.  Myopia Prevention and Outdoor Light Intensity in a School-Based Cluster Randomized Trial. , 2018, Ophthalmology.

[52]  C. Klaver,et al.  Axial length growth and the risk of developing myopia in European children , 2017, Acta ophthalmologica.

[53]  Amanda N. French,et al.  The epidemics of myopia: Aetiology and prevention , 2017, Progress in Retinal and Eye Research.

[54]  A. Hutchinson,et al.  Atropine for the Prevention of Myopia Progression in Children: A Report by the American Academy of Ophthalmology. , 2017, Ophthalmology.

[55]  K. Pesudovs,et al.  Patient-reported Outcomes for Assessment of Quality of Life in Refractive Error: A Systematic Review. , 2017, Optometry and vision science : official publication of the American Academy of Optometry.

[56]  C. Tătaru The current state of refractive surgery , 2017, Romanian journal of ophthalmology.

[57]  K. Pesudovs,et al.  Impact of refractive error on quality of life: a qualitative study , 2017, Clinical & experimental ophthalmology.

[58]  C. K. Hsiao,et al.  Myopia among schoolchildren in East Asia and Singapore. , 2017, Survey of ophthalmology.

[59]  K. Negishi,et al.  A Multicenter Retrospective Survey of Refractive Surgery in 78,248 Eyes. , 2017, Journal of refractive surgery.

[60]  Pei Ying Lee,et al.  Six-year changes in refraction and related ocular biometric factors in an adult Chinese population , 2017, PloS one.

[61]  Maan A. Al-Barry,et al.  Prevalence of uncorrected refractive errors among children aged 3-10 years in western Saudi Arabia , 2017, Saudi medical journal.

[62]  D. Azar,et al.  Risk profiles of ectasia after keratorefractive surgery , 2017, Current opinion in ophthalmology.

[63]  C. McAlinden,et al.  Postoperative Efficacy, Predictability, Safety, and Visual Quality of Laser Corneal Refractive Surgery: A Network Meta-analysis. , 2017, American journal of ophthalmology.

[64]  M. Janowski,et al.  Efficacy and Adverse Effects of Atropine in Childhood Myopia: A Meta-analysis , 2017, JAMA ophthalmology.

[65]  C. Sabanayagam,et al.  An Ecologic Study of Trends in the Prevalence of Myopia in Chinese Adults in Singapore Born from the 1920s to 1980s. , 2017, Annals of the Academy of Medicine, Singapore.

[66]  Kyoko Ohno-Matsui,et al.  WHAT IS THE FUNDAMENTAL NATURE OF PATHOLOGIC MYOPIA? , 2017, Retina.

[67]  R. Malhotra,et al.  Development of the FitSight Fitness Tracker to Increase Time Outdoors to Prevent Myopia , 2017, Translational vision science & technology.

[68]  M. He,et al.  Three-Dimensional Eye Shape, Myopic Maculopathy, and Visual Acuity: The Zhongshan Ophthalmic Center-Brien Holden Vision Institute High Myopia Cohort Study. , 2017, Ophthalmology.

[69]  Mingguang He,et al.  EPIDEMIC OF PATHOLOGIC MYOPIA: What Can Laboratory Studies and Epidemiology Tell Us? , 2017, Retina.

[70]  Wenting Cai,et al.  Dry eye and corneal sensitivity after small incision lenticule extraction and femtosecond laser-assisted in situ keratomileusis: a Meta-analysis. , 2017, International journal of ophthalmology.

[71]  Jiang-Fan Chen,et al.  Bright Light Suppresses Form-Deprivation Myopia Development With Activation of Dopamine D1 Receptor Signaling in the ON Pathway in Retina. , 2017, Investigative ophthalmology & visual science.

[72]  D. Piñero,et al.  Short-Term Outcomes of Small-Incision Lenticule Extraction (SMILE) for Low, Medium, and High Myopia , 2017, European journal of ophthalmology.

[73]  C. Lobo,et al.  Phakic Intraocular Lens Implantation: Refractive Outcome and Safety in Patients with Anterior Chamber Depth between 2.8 and 3.0 versus ≥3.0 mm , 2017, Ophthalmic Research.

[74]  R. Chuck,et al.  Laser-assisted subepithelial keratectomy (LASEK) versus laser-assisted in-situ keratomileusis (LASIK) for correcting myopia. , 2017, The Cochrane database of systematic reviews.

[75]  M. Markoulli,et al.  Contact lens wear and dry eyes: challenges and solutions , 2017, Clinical optometry.

[76]  E. Basch Patient-Reported Outcomes - Harnessing Patients' Voices to Improve Clinical Care. , 2017, The New England journal of medicine.

[77]  K. Tsubota,et al.  Violet Light Exposure Can Be a Preventive Strategy Against Myopia Progression , 2016, EBioMedicine.

[78]  M. He,et al.  Identifying Children at Risk of High Myopia Using Population Centile Curves of Refraction , 2016, PloS one.

[79]  C. Klaver,et al.  When do myopia genes have their effect? Comparison of genetic risks between children and adults , 2016, Genetic epidemiology.

[80]  Ching-Yao Tsai,et al.  Prevalence and risk factors for myopia in second‐grade primary school children in Taipei: A population‐based study , 2016, Journal of the Chinese Medical Association : JCMA.

[81]  D. Tan,et al.  Topical Atropine in the Control of Myopia , 2016, Asia-Pacific journal of ophthalmology.

[82]  A. Demirok,et al.  Refractive lenticule extraction (ReLEx) through a small incision (SMILE) for correction of myopia and myopic astigmatism: current perspectives , 2016, Clinical ophthalmology.

[83]  A. Behrens,et al.  Causes of Phakic Implantable Collamer Lens Explantation/Exchange at King Khaled Eye Specialist Hospital , 2016, Middle East African journal of ophthalmology.

[84]  M. Naderi,et al.  Transepithelial Photorefractive Keratectomy for Low to Moderate Myopia in Comparison with Conventional Photorefractive Keratectomy , 2016, Journal of ophthalmic & vision research.

[85]  K. Tsubota,et al.  Decreased sleep quality in high myopia children , 2016, Scientific Reports.

[86]  J. Jonas,et al.  Peripapillary Diffuse Chorioretinal Atrophy in Children as a Sign of Eventual Pathologic Myopia in Adults. , 2016, Ophthalmology.

[87]  F. Lum,et al.  The Prevalence of Myopic Choroidal Neovascularization in the United States: Analysis of the IRIS(®) Data Registry and NHANES. , 2016, Ophthalmology.

[88]  Ji-eun Lee,et al.  Long‐term clinical results of posterior chamber phakic intraocular lens implantation to correct myopia , 2016, Clinical & experimental ophthalmology.

[89]  Moones F Abdalla,et al.  Corneal biomechanical changes in eyes with small incision lenticule extraction and laser assisted in situ keratomileusis , 2016, BMC Ophthalmology.

[90]  Ken-Kuo Lin,et al.  Effects of topical atropine on intraocular pressure and myopia progression: a prospective comparative study , 2016, BMC Ophthalmology.

[91]  T. Wong,et al.  Age of onset of myopia predicts risk of high myopia in later childhood in myopic Singapore children , 2016, Ophthalmic & physiological optics : the journal of the British College of Ophthalmic Opticians.

[92]  K. Bonsu,et al.  Relationship between Reduced Accommodative Lag and Myopia Progression , 2016, Optometry and vision science : official publication of the American Academy of Optometry.

[93]  Claire L. Simpson,et al.  Childhood gene-environment interactions and age-dependent effects of genetic variants associated with refractive error and myopia: The CREAM Consortium , 2016, Scientific Reports.

[94]  T. Lai,et al.  Updates of pathologic myopia , 2016, Progress in Retinal and Eye Research.

[95]  P. Versace,et al.  Small incision lenticule extraction (SMILE) in 2015 , 2016, Clinical & experimental optometry.

[96]  K. Naidoo,et al.  Global Prevalence of Myopia and High Myopia and Temporal Trends from 2000 through 2050. , 2016, Ophthalmology.

[97]  J. Baumhauer,et al.  Value-based Healthcare: Patient-reported Outcomes in Clinical Decision Making , 2016, Clinical orthopaedics and related research.

[98]  C. McAlinden,et al.  Efficacy Comparison of 16 Interventions for Myopia Control in Children: A Network Meta-analysis. , 2016, Ophthalmology.

[99]  Xu Cheng,et al.  Soft Contact Lenses with Positive Spherical Aberration for Myopia Control , 2016, Optometry and vision science : official publication of the American Academy of Optometry.

[100]  J. B. Randleman,et al.  Complications of Refractive Surgery: Ectasia After Refractive Surgery , 2016, International ophthalmology clinics.

[101]  Audrey Chia,et al.  Five-Year Clinical Trial on Atropine for the Treatment of Myopia 2: Myopia Control with Atropine 0.01% Eyedrops. , 2016, Ophthalmology.

[102]  P. Camacho,et al.  Topical Atropine in the Control of Myopia , 2016, Medical hypothesis, discovery & innovation ophthalmology journal.

[103]  R. Clark,et al.  Atropine 0.01% Eyedrops Significantly Reduce the Progression of Childhood Myopia. , 2015, Journal of ocular pharmacology and therapeutics : the official journal of the Association for Ocular Pharmacology and Therapeutics.

[104]  F. Schaeffel,et al.  Animal models in myopia research , 2015, Clinical & experimental optometry.

[105]  Pei-Chang Wu,et al.  The Association between Near Work Activities and Myopia in Children—A Systematic Review and Meta-Analysis , 2015, PloS one.

[106]  Yuanshuai Huang,et al.  Therapeutic effect of atropine 1% in children with low myopia. , 2015, Journal of AAPOS : the official publication of the American Association for Pediatric Ophthalmology and Strabismus.

[107]  M. He,et al.  Effect of Time Spent Outdoors at School on the Development of Myopia Among Children in China: A Randomized Clinical Trial. , 2015, JAMA.

[108]  A. Grzybowski,et al.  Cycloplegic refraction is the gold standard for epidemiological studies , 2015, Acta ophthalmologica.

[109]  M. Pardue,et al.  ON pathway mutations increase susceptibility to form-deprivation myopia. , 2015, Experimental eye research.

[110]  Xiao-yan Wu,et al.  Effect of outdoor activity on myopia onset and progression in school-aged children in northeast china: the sujiatun eye care study , 2015, BMC Ophthalmology.

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[112]  Hyun Seung Kim,et al.  One-year outcomes of small-incision lenticule extraction (SMILE): mild to moderate myopia vs. high myopia , 2015, BMC Ophthalmology.

[113]  M. Millodot,et al.  Effect of undercorrection on myopia progression in 12-year-old children , 2015, Graefe's Archive for Clinical and Experimental Ophthalmology.

[114]  Yong Wang,et al.  Exposure to Sunlight Reduces the Risk of Myopia in Rhesus Monkeys , 2015, PloS one.

[115]  David M. Evans,et al.  Assumption-free estimation of the genetic contribution to refractive error across childhood , 2015, Molecular vision.

[116]  Tien Yin Wong,et al.  International photographic classification and grading system for myopic maculopathy. , 2015, American journal of ophthalmology.

[117]  M. Torres Small Incision Lenticule Extraction (SMILE) , 2015 .

[118]  Gabriëlle H S Buitendijk,et al.  Prevalence of refractive error in Europe: the European Eye Epidemiology (E3) Consortium , 2015, European Journal of Epidemiology.

[119]  R. Pandey,et al.  Prevalence of Myopia and Its Risk Factors in Urban School Children in Delhi: The North India Myopia Study (NIM Study) , 2015, PloS one.

[120]  M. He,et al.  Normative distribution of visual acuity in 3- to 6-year-old Chinese preschoolers: the Shenzhen kindergarten eye study. , 2015, Investigative ophthalmology & visual science.

[121]  S. Sengupta,et al.  Vision Screening by Teachers in Southern Indian Schools: Testing a New “All Class Teacher” Model , 2015, Ophthalmic epidemiology.

[122]  V. Verhoeven,et al.  APLP2 Regulates Refractive Error and Myopia Development in Mice and Humans , 2014, PLoS genetics.

[123]  J. Koh,et al.  Choroidal Blood Flow Change in Eyes with High Myopia , 2014, Korean journal of ophthalmology : KJO.

[124]  D. Mutti,et al.  Prediction of Juvenile-Onset Myopia. , 2011, JAMA ophthalmology.

[125]  C. Wildsoet,et al.  RPE and Choroid Mechanisms Underlying Ocular Growth and Myopia. , 2015, Progress in molecular biology and translational science.

[126]  D. Reinstein Small Incision Lenticule Extraction (SMILE) in 2015 , 2015 .

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[128]  D. Lawlor,et al.  Does vitamin D mediate the protective effects of time outdoors on myopia? Findings from a prospective birth cohort. , 2014, Investigative ophthalmology & visual science.

[129]  Earl L. Smith,et al.  The effects of simultaneous dual focus lenses on refractive development in infant monkeys. , 2014, Investigative ophthalmology & visual science.

[130]  M. Pardue,et al.  Comparison of refractive development and retinal dopamine in OFF pathway mutant and C57BL/6J wild-type mice , 2014, Molecular vision.

[131]  Frank Dudbridge,et al.  Gene-Environment Dependence Creates Spurious Gene-Environment Interaction , 2014, American journal of human genetics.

[132]  K. Ohno-Matsui Proposed classification of posterior staphylomas based on analyses of eye shape by three-dimensional magnetic resonance imaging and wide-field fundus imaging. , 2014, Ophthalmology.

[133]  C. Hammond,et al.  Genome-wide association studies of refractive error and myopia, lessons learned, and implications for the future. , 2014, Investigative ophthalmology & visual science.

[134]  E. Finkelstein,et al.  A cluster randomised controlled trial evaluating an incentive‐based outdoor physical activity programme to increase outdoor time and prevent myopia in children , 2014, Ophthalmic & physiological optics : the journal of the British College of Ophthalmic Opticians.

[135]  Y. Liu,et al.  Atropine Slows Myopia Progression More in Asian than White Children by Meta-analysis , 2014, Optometry and vision science : official publication of the American Academy of Optometry.

[136]  K. Schmid,et al.  Effect of bifocal and prismatic bifocal spectacles on myopia progression in children: three-year results of a randomized clinical trial. , 2014, JAMA ophthalmology.

[137]  Y. Teo,et al.  Education influences the association between genetic variants and refractive error: a meta-analysis of five Singapore studies. , 2014, Human molecular genetics.

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[139]  M. Lawless,et al.  Laser in situ keratomileusis in 2012: a review , 2014, Clinical & experimental optometry.

[140]  D. Tan,et al.  Atropine for the treatment of childhood myopia: changes after stopping atropine 0.01%, 0.1% and 0.5%. , 2014, American journal of ophthalmology.

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[143]  C. Luu,et al.  Progressive myopia or hyperopia can be induced in chicks and reversed by manipulation of the chromaticity of ambient light. , 2013, Investigative ophthalmology & visual science.

[144]  X. Qu,et al.  Myopia Screening: Combining Visual Acuity and Noncycloplegic Autorefraction , 2013, Optometry and vision science : official publication of the American Academy of Optometry.

[145]  J. Walline,et al.  Multifocal Contact Lens Myopia Control , 2013, Optometry and vision science : official publication of the American Academy of Optometry.

[146]  Wing Chun Tang,et al.  Defocus Incorporated Soft Contact (DISC) lens slows myopia progression in Hong Kong Chinese schoolchildren: a 2-year randomised clinical trial , 2013, British Journal of Ophthalmology.

[147]  S. Cotter,et al.  Prevalence of myopia, hyperopia, and astigmatism in non-Hispanic white and Asian children: multi-ethnic pediatric eye disease study. , 2013, Ophthalmology.

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[149]  Xiaoying Zhu Temporal integration of visual signals in lens compensation (a review). , 2013, Experimental eye research.

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[151]  Thomas Meitinger,et al.  Nine loci for ocular axial length identified through genome-wide association studies, including shared loci with refractive error. , 2013, American journal of human genetics.

[152]  Amanda N. French,et al.  Prevalence and 5- to 6-year incidence and progression of myopia and hyperopia in Australian schoolchildren. , 2013, Ophthalmology.

[153]  J. Mehta,et al.  Comparison of efficacy and safety of laser in situ keratomileusis using 2 femtosecond laser platforms in contralateral eyes , 2013, Journal of cataract and refractive surgery.

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[156]  Pei-Chang Wu,et al.  Outdoor activity during class recess reduces myopia onset and progression in school children. , 2013, Ophthalmology.

[157]  M. Carter,et al.  Visual acuity and refraction by age for children of three different ethnic groups in Paraguay. , 2013, Arquivos Brasileiros de Oftalmologia.

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[170]  R. Casson,et al.  Exceptionally low prevalence of refractive error and visual impairment in schoolchildren from Lao People's Democratic Republic. , 2012, Ophthalmology.

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[178]  S. Chiou,et al.  Prevalence and associated risk factors of myopic maculopathy in elderly Chinese: the Shihpai eye study. , 2012, Investigative ophthalmology & visual science.

[179]  George Mcmahon,et al.  Time outdoors and physical activity as predictors of incident myopia in childhood: a prospective cohort study. , 2012, Investigative ophthalmology & visual science.

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