Short-Term Effects of Orthokeratology Treatment Zone Decentration on Choroidal Thickness and Vasculature. [PDF]
Transl Vis Sci TechnolYang L, Lin W, Jia T, Wei R.
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AI-assisted automated interpretation of corneal topography in orthokeratology patients: enhancing diagnostic precision and efficiency. [PDF]
Int J OphthalmolKang DH +6 more
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Safety and effectiveness of orthokeratology for treating myopic regression after LASIK. [PDF]
BMC OphthalmolZhang C +5 more
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Association between first-year axial elongation and 10-year myopia progression in children wearing orthokeratology lenses: a ten-year longitudinal study. [PDF]
Front Cell Dev BiolWang Z +9 more
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Editorial: Myopia in childhood and adolescence. [PDF]
Front Ophthalmol (Lausanne)Cruz-Gálvez CC +2 more
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Comparative efficacy of optical correction methods combined with 0.01% atropine in myopia control. [PDF]
BMC OphthalmolChen M +5 more
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Assessing large language models as assistive tools in selecting first trial lens parameters for orthokeratology. [PDF]
Front Med (Lausanne)Han Y +5 more
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A Multimodal Multitask Artificial Intelligence Model for Orthokeratology Contact Lens Fitting: An Integrated Framework to Enhance Lens Centration and Myopia Control Effect. [PDF]
Ophthalmol SciZhang Z, Zhou X, Li C, Xiao Y, Chen Z.
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Axial Length Control Using Repeated Low-Level Red Light Combined with Orthokeratology Compared with Orthokeratology Alone in Rapidly Progressing Myopic Children. [PDF]
Clin OphthalmolElham A, Meng X.
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Real-world effectiveness of MiSight 1 Day contact lenses in Taiwanese children: a multicenter retrospective study. [PDF]
Front Med (Lausanne)Huang YT +8 more
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