Differences between Wavefront and Subjective Refraction for Infrared Light
| Autor: | Robert J. Jacobs, Daniel R. Neal, Danielle F. W. Teel, Larry N. Thibos, James Copland |
|---|---|
| Rok vydání: | 2014 |
| Předmět: |
Adult
Male Corneal Wavefront Aberration Light Infrared Rays Infrared Wavefront aberrometer Refraction Ocular Young Adult Optics Humans Scattering Radiation Wavefront Physics Eye Color business.industry Aberrometry Middle Aged Refractive Errors Subjective refraction Ophthalmology Female Monochromatic color business Algorithms Optometry |
| Zdroj: | Optometry and Vision Science. 91:1158-1166 |
| ISSN: | 1040-5488 |
| Popis: | To determine the accuracy of objective wavefront refractions for predicting subjective refractions for monochromatic infrared light.Objective refractions were obtained with a commercial wavefront aberrometer (COAS, Wavefront Sciences). Subjective refractions were obtained for 30 subjects with a speckle optometer validated against objective Zernike wavefront refractions on a physical model eye (Teel et al., Design and validation of an infrared Badal optometer for laser speckle, Optom Vis Sci 2008;85:834-42). Both instruments used near-infrared (NIR) radiation (835 nm for COAS, 820 nm for the speckle optometer) to avoid correction for ocular chromatic aberration. A 3-mm artificial pupil was used to reduce complications attributed to higher-order ocular aberrations. For comparison with paraxial (Seidel) and minimum root-mean-square (Zernike) wavefront refractions, objective refractions were also determined for a battery of 29 image quality metrics by computing the correcting lens that optimizes retinal image quality.Objective Zernike refractions were more myopic than subjective refractions for 29 of 30 subjects. The population mean discrepancy was -0.26 diopters (D) (SEM = 0.03 D). Paraxial (Seidel) objective refractions tended to be hyperopically biased (mean discrepancy = +0.20 D, SEM = 0.06 D). Refractions based on retinal image quality were myopically biased for 28 of 29 metrics. The mean bias across all 31 measures was -0.24 D (SEM = 0.03). Myopic bias of objective refractions was greater for eyes with brown irises compared with eyes with blue irises.Our experimental results are consistent with the hypothesis that reflected NIR light captured by the aberrometer originates from scattering sources located posterior to the entrance apertures of cone photoreceptors, near the retinal pigment epithelium. The larger myopic bias for brown eyes suggests that a greater fraction of NIR light is reflected from choroidal melanin in brown eyes compared with blue eyes. |
| Databáze: | OpenAIRE |
| Externí odkaz: |
|