Pages that link to "Q73254584"

The following pages link to Factors related to the progression of myopia in Singaporean children (Q73254584):

Displaying 44 items.

• Acupuncture for slowing the progression of myopia in children and adolescents (Q24234311) (← links)
• Interventions to slow progression of myopia in children (Q24234516) (← links)
• Acupuncture for myopia in children and adolescents (Q24240673) (← links)
• Interventions to slow progression of myopia in children (Q24243428) (← links)
• Contact lenses for reducing myopia progression in children (Q24246883) (← links)
• Myopia (Q24527196) (← links)
• The Association between Near Work Activities and Myopia in Children-A Systematic Review and Meta-Analysis (Q26781253) (← links)
• Efficacy and Acceptability of Orthokeratology for Slowing Myopic Progression in Children: A Systematic Review and Meta-Analysis (Q26801913) (← links)
• Light levels, refractive development, and myopia--a speculative review (Q27013720) (← links)
• Factors related to axial length elongation and myopia progression in orthokeratology practice (Q33574605) (← links)
• Time outdoors and physical activity as predictors of incident myopia in childhood: a prospective cohort study (Q34031440) (← links)
• Myopia Progression Rates in Urban Children Wearing Single-Vision Spectacles (Q34044317) (← links)
• Nature and nurture: the complex genetics of myopia and refractive error (Q34679031) (← links)
• Effect of watching 3-dimensional television on refractive error in children (Q35024553) (← links)
• Myopia in Singapore: taking a public health approach (Q35319613) (← links)
• A synopsis of the prevalence rates and environmental risk factors for myopia (Q35586352) (← links)
• Education, socioeconomic status, and ocular dimensions in Chinese adults: the Tanjong Pagar Survey (Q35590048) (← links)
• The Association between Maternal Reproductive Age and Progression of Refractive Error in Urban Students in Beijing (Q35793417) (← links)
• Children's refractions and visual activities in the school year and summer (Q35896491) (← links)
• Near Work Related Parameters and Myopia in Chinese Children: the Anyang Childhood Eye Study (Q35921714) (← links)
• Risk Factors of Myopic Shift among Primary School Children in Beijing, China: A Prospective Study (Q38632120) (← links)
• Time spent in outdoor activities in relation to myopia prevention and control: a meta-analysis and systematic review (Q36294861) (← links)
• Time outdoors, visual activity, and myopia progression in juvenile-onset myopes (Q36327878) (← links)
• Pharmacology of myopia and potential role for intrinsic retinal circadian rhythms (Q36794501) (← links)
• Patterns in longitudinal growth of refraction in Southern Chinese children: cluster and principal component analysis (Q37428057) (← links)
• Serum 25-hydroxyvitamin D level is associated with myopia in the Korea national health and nutrition examination survey. (Q37432872) (← links)
• The Response AC/A Ratio Before and After the Onset of Myopia (Q37715377) (← links)
• Visual activity and its association with myopia stabilisation (Q37722651) (← links)
• Comparing myopic progression of urban and rural Taiwanese schoolchildren (Q39957781) (← links)
• Influence of Near Tasks on Posture in Myopic Chinese Schoolchildren (Q40802188) (← links)
• Effect of undercorrection on myopia progression in 12-year-old children (Q41702755) (← links)
• MiSight Assessment Study Spain (MASS). A 2-year randomized clinical trial (Q48112179) (← links)
• The impact of computer use in myopia progression: a cohort study in Spain (Q50454941) (← links)
• Multifocal Versus Single Vision Lenses Intervention to Slow Progression of Myopia in School-age Children: A Meta-analysis (Q51017400) (← links)
• Influence of indoor and outdoor activities on progression of myopia during puberty (Q51281362) (← links)
• Long-term visual prognosis of infantile-onset high myopia. (Q51372670) (← links)
• Ocular compensation for alternating myopic and hyperopic defocus (Q51520312) (← links)
• Pathway analysis identifies altered mitochondrial metabolism, neurotransmission, structural pathways and complement cascade in retina/RPE/ choroid in chick model of form-deprivation myopia. (Q55399256) (← links)
• Role of corneal biomechanical properties in predicting of speed of myopic progression in children wearing orthokeratology lenses or single-vision spectacles (Q61454533) (← links)
• A randomized trial of rigid gas permeable contact lenses to reduce progression of children's myopia (Q73592866) (← links)
• The progression of refractive error in school-age children: Shunyi district, China (Q78508051) (← links)
• Temporal constraints on lens compensation in chicks (Q78555424) (← links)
• Interocular difference associated with myopic progression following unilateral lateral rectus recession in early school-aged children (Q90664916) (← links)
• Scleral HIF-1α is a prominent regulatory candidate for genetic and environmental interactions in human myopia pathogenesis (Q97538985) (← links)