Design-Dependent Myopia Control in Orthokeratology: Spherical Versus Aspherical Back Optic Zone Profiles. [PDF]
Bioengineering (Basel)Lin WP +5 more
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Association between axial elongation and corneal power distribution changes induced by aspheric orthokeratology lenses. [PDF]
Eye Vis (Lond)Li M +6 more
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Factors influencing shared decision-making and decision regret in parents of children undergoing myopia control within one year. [PDF]
BMC OphthalmolHung LL, Sun CC, Chang LC, Liao LL.
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Interventional modalities for the prevention and management of childhood myopia in frontiers in ophthalmology: PREC strategy for myopia in children. [PDF]
Front Ophthalmol (Lausanne)Bremond-Gignac D, Robert MP, Daruich A.
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The application of hyaluronic acid-containing artificial tears on the ocular surface of children receiving orthokeratology contact lens treatment. [PDF]
Int J Med SciLee CY, Yang SF, Huang JY, Chang CK.
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Preliminary exploration and evaluation of video-based feedback for orthokeratology lens fitting: a pilot study. [PDF]
BMC Med EducXu F, Wu X, Wang B, Liu X.
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Symptoms in patients undergoing overnight orthokeratology treatment [PDF]
, 2012 Cerviño, Alejandro +3 more
core
Baseline ocular biometrics in children with orthokeratology-induced axial length reduction or elongation. [PDF]
BMC OphthalmolAi X, Zhang X, Wang R, Li Y.
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Efficacy of binoculus orthokeratology with different optical zone designs in myopic children and adolescents: Contributing factors and establishment of a continuous dynamic follow-up model. [PDF]
Medicine (Baltimore)Zhang X, Xin Y, Chen J, Liu S.
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The Aberrometric Effect of Corneal Plus Power Ring Distribution on Axial Length Growth in Myopic Children Undergoing Orthokeratology Treatment. [PDF]
Children (Basel)Espín AM +3 more
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