Indexed keywords
ANTERIOR EYE CHAMBER DEPTH;
ARTICLE;
BIOMETRY;
CATARACT;
CLINICAL ARTICLE;
CONTROLLED STUDY;
CORRELATION COEFFICIENT;
HUMAN;
INTERFEROMETRY;
LENS IMPLANT;
LINEAR REGRESSION ANALYSIS;
NERVE CELL NETWORK;
PRIORITY JOURNAL;
STATISTICAL SIGNIFICANCE;
ADULT;
AGED;
AGED, 80 AND OVER;
ANTERIOR CHAMBER;
BIOMETRY;
HUMANS;
INTERFEROMETRY;
LENS IMPLANTATION, INTRAOCULAR;
LENSES, INTRAOCULAR;
LIGHT;
MIDDLE AGED;
NEURAL NETWORKS (COMPUTER);
PHACOEMULSIFICATION;
POSTOPERATIVE PERIOD;
REFRACTION, OCULAR;
VISUAL ACUITY;
1
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Partial coherence interferometry: A novel approach to biometry in cataract surgery
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Comparison of intraocular lens computations using a neural network versus the Holladay formula
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Anterior chamber depth after posterior chamber intraocular lens implantation
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Ohzuno, I.2
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Multi-layer feedforward networks are universal approximators
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