scholarly article | Q13442814 |
P2093 | author name string | Julia S Benoit | |
Lisa A Ostrin | |||
Auzita Sajjadi | |||
P2860 | cites work | The Association between Near Work Activities and Myopia in Children-A Systematic Review and Meta-Analysis | Q26781253 |
Exposure to sunlight reduces the risk of myopia in rhesus monkeys | Q27306255 | ||
Axial Growth and Changes in Lenticular and Corneal Power during Emmetropization in Infants | Q29397704 | ||
Parent and child physical activity and sedentary time: do active parents foster active children? | Q33557628 | ||
Parental myopia, near work, school achievement, and children's refractive error | Q33962796 | ||
Time outdoors and physical activity as predictors of incident myopia in childhood: a prospective cohort study | Q34031440 | ||
Increased prevalence of myopia in the United States between 1971-1972 and 1999-2004. | Q34087993 | ||
The contributions of near work and outdoor activity to the correlation between siblings in the Collaborative Longitudinal Evaluation of Ethnicity and Refractive Error (CLEERE) Study | Q34323167 | ||
Quantifying light exposure patterns in young adult students | Q34378851 | ||
High heritability of myopia does not preclude rapid changes in prevalence | Q34636737 | ||
Myopic shift and outdoor activity among primary school children: one-year follow-up study in Beijing | Q35005486 | ||
Visual Activity before and after the Onset of Juvenile Myopia | Q35005991 | ||
Associations of American Indian children's screen-time behavior with parental television behavior, parental perceptions of children's screen time, and media-related resources in the home. | Q35235118 | ||
The importance of genes and environment for ocular refraction and its determiners: a population based study among 20-45 year old twins | Q35318195 | ||
Protective effects of high ambient lighting on the development of form-deprivation myopia in rhesus monkeys | Q35797279 | ||
Children's refractions and visual activities in the school year and summer | Q35896491 | ||
Comparison of measurements of time outdoors and light levels as risk factors for myopia in young Singapore children | Q36093242 | ||
Effects of Long-Wavelength Lighting on Refractive Development in Infant Rhesus Monkeys | Q36159796 | ||
Use of actigraphy for assessment in pediatric sleep research | Q36243136 | ||
Myopia progression in Chinese children is slower in summer than in winter | Q36417362 | ||
Negative lens-induced myopia in infant monkeys: effects of high ambient lighting | Q36801997 | ||
Generational difference of refractive error in the baseline study of the Beijing Myopia Progression Study | Q36876731 | ||
Validating actigraphy as a measure of sleep for preschool children. | Q36898811 | ||
Refractive error, axial length, and relative peripheral refractive error before and after the onset of myopia | Q37133499 | ||
Prevalence of refractive error in the United States, 1999-2004. | Q37409254 | ||
Seasonal variations in the progression of myopia in children enrolled in the correction of myopia evaluation trial | Q37561217 | ||
Prevalence of refractive error in Singaporean Chinese children: the strabismus, amblyopia, and refractive error in young Singaporean Children (STARS) study | Q37691855 | ||
The complex interactions of retinal, optical and environmental factors in myopia aetiology | Q38024626 | ||
The association between time spent outdoors and myopia in children and adolescents: a systematic review and meta-analysis | Q38027259 | ||
Objectively Measured Light Exposure in Emmetropic and Myopic Adults | Q39217953 | ||
Outdoor activity and myopia among primary students in rural and urban regions of Beijing | Q40071320 | ||
Infant attachment and toddlers' sleep assessed by maternal reports and actigraphy: different measurement methods yield different relations. | Q40093667 | ||
Outdoor activity during class recess reduces myopia onset and progression in school children | Q40095930 | ||
Chicks use changes in luminance and chromatic contrast as indicators of the sign of defocus | Q41635710 | ||
How blinding is pathological myopia? | Q42842241 | ||
The effect of bright light on lens compensation in chicks. | Q43072987 | ||
Dietary factors, myopia, and axial dimensions in children | Q43192296 | ||
Light-induced stimulation of retinal dopamine: a dose-response relationship | Q43971764 | ||
Trends in the pattern of blindness and major ocular diseases in Singapore and Asia. | Q44216075 | ||
Prevalence of myopia and its association with body stature and educational level in 19-year-old male conscripts in seoul, South Korea | Q44221646 | ||
Outdoor activity and myopia in Singapore teenage children | Q44278079 | ||
Macular thickness measurements in healthy subjects with different axial lengths using optical coherence tomography | Q44411648 | ||
What factors are associated with myopia in young adults? A survey study in Taiwan Military Conscripts | Q44942206 | ||
Accommodation and related risk factors associated with myopia progression and their interaction with treatment in COMET children | Q44956601 | ||
Posterior retinal contour in adult human anisomyopia | Q44956607 | ||
Differences in prevalence of refractive errors in young Asian males in Singapore between 1996-1997 and 2009-2010. | Q45152594 | ||
Neural pathways subserving negative lens-induced emmetropization in chicks--insights from selective lesions of the optic nerve and ciliary nerve. | Q46035263 | ||
Interactions of chromatic and lens-induced defocus during visual control of eye growth in guinea pigs (Cavia porcellus). | Q46963137 | ||
Local changes in eye growth induced by imposed local refractive error despite active accommodation | Q48500502 | ||
Darkness and near work: myopia and its progression in third-year law students. | Q48663425 | ||
Naturalistic studies of human light exposure | Q49103561 | ||
Long-wavelength (red) light produces hyperopia in juvenile and adolescent tree shrews | Q50200468 | ||
Light exposure and physical activity in myopic and emmetropic children. | Q50734574 | ||
Comparison of ocular component growth curves among refractive error groups in children. | Q50763933 | ||
Parental factors associated with screen time in pre-school children in primary-care practice: a TARGet Kids! study. | Q51042263 | ||
Light Exposure and Eye Growth in Childhood. | Q51294056 | ||
The effect of ambient illuminance on the development of deprivation myopia in chicks. | Q51825910 | ||
Outdoor Activity Reduces the Prevalence of Myopia in Children | Q56114083 | ||
The Effect of Cycloplegia on the Lenstar and the IOLMaster Biometry | Q57244050 | ||
The relationship between refractive errors and retinal detachment--analysis of 1,166 retinal detachment cases | Q68040553 | ||
A longitudinal study of refraction and its components during growth | Q71367998 | ||
Changes in ocular refraction and its components among medical students--a 5-year longitudinal study | Q71618616 | ||
Investigation of the variation and the correlation of the optical elements of human eyes | Q80259826 | ||
P433 | issue | 4 | |
P304 | page(s) | 332-342 | |
P577 | publication date | 2018-04-01 | |
P1433 | published in | Optometry and Vision Science | Q15716649 |
P1476 | title | Objectively Measured Light Exposure During School and Summer in Children | |
P478 | volume | 95 |
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