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1. |
Aberrometry: The Past, Present, and Future of Optometry |
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Optometry and Vision Science,
Volume 80,
Issue 1,
2003,
Page 1-2
Larry Thibos,
Raymond Applegate,
Susana Marcos,
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ISSN:1040-5488
出版商:OVID
年代:2003
数据来源: OVID
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2. |
IN THE NEWS |
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Optometry and Vision Science,
Volume 80,
Issue 1,
2003,
Page 3-5
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ISSN:1040-5488
出版商:OVID
年代:2003
数据来源: OVID
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3. |
Measurement of Refractive Errors in Young Myopes Using the COAS Shack-Hartmann Aberrometer |
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Optometry and Vision Science,
Volume 80,
Issue 1,
2003,
Page 6-14
THOMAS,
SALMON ROGER,
WEST WAYNE,
GASSER and TODD,
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摘要:
Purpose.To evaluate the Complete Ophthalmic Analysis System (COAS; WaveFront Science) for accuracy, repeatability, and instrument myopia when measuring myopic refractive errors.Methods.We measured the refractive errors of 20 myopic subjects (+0.25 to −10 D sphere; 0 to −1.75 D cylinder) with a COAS, a phoropter, and a Nidek ARK-2000 autorefractor. Measurements were made for right and left eyes, with and without cycloplegia, and data were analyzed for large and small pupils. We used the phoropter refraction as our estimate of the true refractive error, so accuracy was defined as the difference between phoropter refraction and that of the COAS and autorefractor. Differences and means were computed using power vectors, and accuracy was summarized in terms of mean vector and mean spherocylindrical power errors. To assess repeatability, we computed the mean vector deviation for each of five measurements from the mean power vector and computed a coefficient of repeatability. Instrument myopia was defined as the difference between cycloplegic and noncycloplegic refractions for the same eyes.Results.Without cycloplegia, both the COAS and autorefractor had mean power vector errors of 0.3 to 0.4 D. Cycloplegia improved autorefractor accuracy by 0.1 D, but COAS accuracy remained the same. For large pupils, COAS accuracy was best when Zernike mode Z40(primary spherical aberration) was included in the computation of sphere power. COAS repeatability was slightly better than autorefraction repeatability. Mean instrument myopia for the COAS was not significantly different from zero.Conclusions.When measuring myopes, COAS accuracy, repeatability, and instrument myopia were similar to those of the autorefractor. Error margins for both were better than the accuracy of subjective refraction. We conclude that in addition to its capability to measure higher-order aberrations, the COAS can be used as a reliable, accurate autorefractor.
ISSN:1040-5488
出版商:OVID
年代:2003
数据来源: OVID
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4. |
Comparison of Monochromatic Ocular Aberrations Measured with an Objective Cross-Cylinder Aberroscope and a Shack-Hartmann Aberrometer |
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Optometry and Vision Science,
Volume 80,
Issue 1,
2003,
Page 15-25
XIN,
HONG LARRY,
THIBOS ARTHUR,
BRADLEY RUSSELL,
WOODS and RAYMOND,
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摘要:
Repeated measures of wavefront aberrations were taken along the line-of-sight of seven eyes using two instruments: an objective, cross-cylinder aberroscope (OA) and a Shack-Hartmann (SH) aberrometer. Both instruments were implemented on the same optical table to facilitate interleaved measurements on the same eyes under similar experimental conditions. Variability of repeated measures of individual coefficients tended to be much greater for OA data than for SH data. Although Zernike coefficients obtained from a single measurement were generally larger when measured with the OA than with the SH, the averages across five trials were often smaller for the OA. The Zernike coefficients obtained from the two instruments were not significantly correlated. Radial modulation-transfer functions and point-spread functions derived from the two sets of measurements were similar for some subjects, but not all. When average Zernike coefficients were used to determine optical quality, the OA indicated superior optics in some eyes, but the reverse trend was true if Zernike coefficients from individual trials were used. Possible reasons for discrepancies between the OA and SH measurements include difference in sampling density, quality of data images, alignment errors, and temporal fluctuations. Multivariate statistical analysis indicated that the SH aberrometer discriminated between subjects much better than did the objective aberroscope.
ISSN:1040-5488
出版商:OVID
年代:2003
数据来源: OVID
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5. |
Aberrations of the Human Eye in Visible and Near Infrared Illumination |
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Optometry and Vision Science,
Volume 80,
Issue 1,
2003,
Page 26-35
LOURDES,
LLORENTE LUIS,
DIAZ-SANTANA DAVID,
LARA-SAUCEDO and SUSANA,
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摘要:
Purpose.In most current aberrometers, near infrared light is used to measure ocular aberrations, whereas in some applications, optical aberration data in the visible range are required. We compared optical aberration measurements using infrared (787 nm) and visible light (543 nm) in a heterogeneous group of subjects to assess whether aberrations are similar in both wavelengths and to estimate experimentally the ocular chromatic focus shift.Methods.Ocular aberrations were measured in near infrared and visible light using two different laboratory-developed systems: laser ray tracing (LRT) and Shack-Hartmann. Measurements were conducted on 36 eyes (25 and 11 eyes, respectively), within a wide range of ages (20 to 71 years), refractive errors (−6.00 to +16.50), and optical quality (root mean square wavefront error, excluding defocus, from 0.40 to 9.89 &mgr;m). In both systems, wave aberrations were computed from the ray aberrations by modal fitting to a Zernike polynomial base (up to seventh order in laser ray tracing and sixth order in Shack-Hartmann). We compared the Zernike coefficients and the root mean square wavefront error corresponding to different terms between infrared and green illumination.Results.A Student’s t-test performed on the Zernike coefficients indicates that defocus was significantly different in all of the subjects but one. Average focus shift found between 787 nm and 543 nm was 0.72 D. A very small percentage of the remaining coefficients was found to be significantly different: 4.7% of the 825 coefficients (25 eyes with 33 terms) for laser ray tracing and 18.2% of the 275 coefficients (11 eyes with 25 terms) for Shack-Hartmann. Astigmatism was statistically different in 8.3% of the eyes, root mean square wavefront error for third-order aberrations in 16.6%, and spherical aberration (Z40) in 11.1%.Conclusions.Aerial images captured using infrared and green light showed noticeable differences. Apart from defocus, this did not affect centroid computations because within the variability of the techniques, estimates of aberrations with infrared were equivalent to those measured with green. In normal eyes, the Longitudinal Chromatic Aberration of the Indiana Chromatic Eye Model can predict the defocus term changes measured experimentally, although the intersubject variability could not be neglected. The largest deviations from the prediction were found on an aphakic eye and on the oldest subject.
ISSN:1040-5488
出版商:OVID
年代:2003
数据来源: OVID
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6. |
A Method to Predict Refractive Errors from Wave Aberration Data |
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Optometry and Vision Science,
Volume 80,
Issue 1,
2003,
Page 36-42
ANTONIO,
GUIRAO and DAVID,
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摘要:
We explored the impact of the eye’s higher-order aberrations on subjective refraction comparing two classes of methods for estimating refractive state, one based directly on the wave aberration defined in the pupil plane and another based on the retinal image plane. The method defined in the pupil plane chose the sphere and cylinder that either minimized the wave aberration root mean square or minimized the sum of all the spherical and cylindrical components in the wave aberration. The method defined in the image plane chose the sphere and cylinder that optimized an image-quality metric such as the Strehl intensity ratio, the entropy and the intensity variance of the point-spread function, the volume under the modulation transfer function, or the volume under the contrast-sensitivity function. All these methods were compared in a population of six eyes for which we measured both the wave aberration with a Shack-Hartmann wavefront sensor and the subjective refraction under identical conditions. Pupil plane methods predicted subjective refraction poorly. The mean absolute error of the prediction, in spherical equivalent, was about 0.5 D (range, 0.1 to 0.8 D) and increased with increases in higher-order aberrations. However, for all the retinal image plane methods, the mean error between predicted and subjective refraction was about 0.1 D (range, 0 to 0.25 D). The reliability of the method based on the image-quality optimization was further confirmed in a large population of 146 eyes. In conclusion, higher-order aberrations influence the amount of sphere and cylinder required to correct vision. The results indicate that subjective refraction can be predicted from the eye’s optics alone by optimizing computed retinal image quality.
ISSN:1040-5488
出版商:OVID
年代:2003
数据来源: OVID
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7. |
Relationship between Refractive Error and Monochromatic Aberrations of the Eye |
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Optometry and Vision Science,
Volume 80,
Issue 1,
2003,
Page 43-49
XU,
CHENG ARTHUR,
BRADLEY XIN,
HONG and LARRY,
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摘要:
Purpose.To examine the relationship between ametropia and optical aberrations in a population of 200 normal human eyes with refractive errors spanning the range from +5.00 to −10.00 D.Methods.Using a reduced-eye model of ametropia, we tested the hypothesis that the optical system of the eye is uncorrelated with the degree of ametropia. These predictions were evaluated experimentally with a Shack-Hartmann aberrometer that measured the monochromatic aberrations across the central 6 mm of the dilated pupil in well-corrected, cyclopleged eyes.Results.Optical theory predicted, and control experiments on a model eye verified, that Shack-Hartmann measurements of spherical aberration will vary with axial elongation of the eye even if the dioptric components of the eye are fixed. Contrary to these predictions, spherical aberration was not significantly different from emmetropic eyes. Root mean square of third-order aberrations, fourth-order aberrations, and total higher aberrations (third to 10th) in myopic and hyperopic eyes were also uncorrelated with refractive error. Astigmatic eyes tended to have larger total higher-order aberrations than nonastigmatic eyes.Conclusions.We conclude that a reduced-eye model of myopia assuming fixed optical parameters and variable axial length is not tenable.
ISSN:1040-5488
出版商:OVID
年代:2003
数据来源: OVID
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8. |
Double-Pass Measurement of Retinal Image Quality in the Chicken Eye |
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Optometry and Vision Science,
Volume 80,
Issue 1,
2003,
Page 50-57
NANCY,
COLETTA SUSANA,
MARCOS CHRISTINE,
WILDSOET and DAVID,
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摘要:
Purpose.The chicken,Gallus gallus domesticus, is used as an animal model to study the development of refractive error. Although vision is important in determining the eye’s refractive state, relatively little is known about the retinal image quality of the chicken eye. An objective double-pass technique was used to measure the optical quality of the eyes of White Leghorn chickens.Methods.Measurements were made on 21 eyes of six untreated birds and eight experimental birds that were members of a study of refractive development. Ages ranged from 3 to 6 weeks, and refractions ranged from −1.29 to +0.58 D in the untreated eyes and −4.58 to +10.17 D in the experimental eyes. The measurements were made under general anesthesia combined with either cycloplegia or ciliary nerve section. Proper optical alignment of the eye was achieved with the aid of a TV monitor, CCD camera, and an infrared source. A 543-nm laser point source was focused on the retina, and the double-pass aerial image was collected by a high-resolution CCD camera. Refractive errors were corrected with trial lenses, using a bracketing method to optimize the retinal images. Both the full width at half-maximum of the double-pass aerial image and the single-pass modulation transfer function were used as objective estimates of the optical quality.Results.The mean full width at half-maximum value in eyes of the untreated birds was 1.60 min arc for a 4.50-mm mean pupil diameter. Optical quality tended to be worse in the experimental myopic eyes.Conclusions.The optical quality of the chicken eye measured under monochromatic conditions meets or may even exceed the neural limits of spatial acuity based on anatomical estimates of ganglion cell spacing. The data also suggest that optical quality is worse in myopic eyes, which is consistent with studies of human eyes.
ISSN:1040-5488
出版商:OVID
年代:2003
数据来源: OVID
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9. |
Scatter and Its Implications for the Measurement of Optical Image Quality in Human Eyes |
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Optometry and Vision Science,
Volume 80,
Issue 1,
2003,
Page 58-68
MICHAEL,
COX DAVID,
ATCHISON and DION,
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摘要:
Purpose.To investigate the effect of scatter on measurements of wavefront aberrations and point-spread functions in a model eye.Methods.The wavefront aberrations of a model eye were measured using Hartmann-Shack wavefront sensing and crossed-cylinder aberroscope techniques and compared with its measured point-spread function in the presence of scattering media of different concentrations.Results.The point-spread functions became broader as the concentration increased. Forward light scatter on both the light path into the eye and the light path out of the eye contributed to this broadening of the point-spread function. Neither the crossed-cylinder aberroscope nor wavefront sensing, which, respectively, measure the ocular wavefront aberrations for light entering the eye and leaving the eye, were affected by the scatter.Conclusion.We predict that by minimizing the contribution of the forward light scatter from one or other of these light paths by manipulating the size of the entrance and exit pupils, it should be possible to objectively assess narrow-angle forward light scatter in the eye by measuring and removing any confounding effect from wavefront aberration.
ISSN:1040-5488
出版商:OVID
年代:2003
数据来源: OVID
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10. |
Use of Retroillumination to Visualize Optical Aberrations Caused by Tear Film Break-Up |
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Optometry and Vision Science,
Volume 80,
Issue 1,
2003,
Page 69-78
NIKOLE,
HIMEBAUGH ANNETTE,
WRIGHT ARTHUR,
BRADLEY CAROLYN,
BEGLEY and LARRY,
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摘要:
Purpose.The aim of the current study was to develop quantitative methods to assess optical aberrations caused by tear film disruption.Methods.We used standard fluorescein imaging (FL) and a novel retroillumination (RI) method to image tear film disruption in 12 eyes. Using a clinical slit lamp biomicroscope, we alternated between widefield blue and narrow-beam white light to obtain an interleaved series of FL and RI images of the time course and pattern of tear film break-up. We developed an optical analysis that indicates that the RI image should be proportional to the spatial derivative of the FL image. Intensity fluctuations in the RI images are due to thickness changes in the tear film, whereas intensity fluctuations in FL images are directly determined by tear film thickness.Results.As predicted by optical analysis of RI, the spatial distribution of gaps in the tear film seen with fluorescein appeared as pairs of light and dark contours in the RI images, and a precise correspondence between the spatial derivative of the FL image (slope) and the RI image was found. Both methods showed a gradual spreading of the tear disruption during blink suppression that varied tremendously among eyes in both time and spatial pattern. Resumption of normal blinking did not produce an immediate reconstitution of the normal tear film, and areas of tear break-up created during blink suppression remained abnormal for up to several minutes of normal blinking.Conclusions.Our analysis indicates that both FL and RI have the potential to quantify optical changes occurring during tear break-up. These results support an interpretation of RI as an intensity-based method for mapping the highly irregular optical aberrations of the eye produced by tear film disruption.
ISSN:1040-5488
出版商:OVID
年代:2003
数据来源: OVID
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