Danielle F. W. Teel scite author profile

Danielle F. W. Teel

5Publications

33Citation Statements Received

113Citation Statements Given

How they've been cited

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137

105

Affiliations

University of Auckland, Indiana University, Indiana University Bloomington

Publications

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Differences between Wavefront and Subjective Refraction for Infrared Light

Teel

Jacobs²,

Copland³

et al. 2014

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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.

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Longitudinal chromatic aberration of the human infant eye

et al. 2008

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Although the longitudinal chromatic aberration (LCA) of the adult eye has been studied, there are no data collected from the human infant eye. A chromatic retinoscope was used to measure cyclopleged infant and adult refractions with four pseudomonochromatic sources (centered at 472, 538, 589, and 652 nm) and with polychromatic light. The LCA of the infant eyes between 472 and 652 nm was a factor of 1.7 greater than the LCA found in the adult group: infant mean=1.62 D, SD ±0.14 D; adult mean=0.96 D, SD±0.17 D. The elevated level of LCA in infant eyes is consistent with the greater optical power of the immature eye and indicates similar chromatic dispersion in infant and adult eyes. The implications for visual performance, defocus detection, and measurement of refraction are discussed.

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The influence of accommodation and vergence coupling during visual development.

et al. 2012

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Design and Validation of an Infrared Badal Optometer for Laser Speckle

Teel

Copland

Jacobs³

et al. 2008

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Purpose To validate the design of an infrared wavefront aberrometer with a Badal optometer employing the principle of laser speckle generated by a spinning disk and infrared light. The instrument was designed for subjective meridional refraction in infrared light by human patients. Methods Validation employed a model eye with known refractive error determined with an objective infrared wavefront aberrometer. The model eye was used to produce a speckle pattern on an artificial retina with controlled amounts of ametropia introduced with auxiliary ophthalmic lenses. A human observer performed the psychophysical task of observing the speckle pattern (with the aid of a video camera sensitive to infrared radiation) formed on the artificial retina. Refraction was performed by adjusting the vergence of incident light with the Badal optometer to nullify the motion of laser speckle. Validation of the method was performed for different levels of spherical ametropia and for various configurations of an astigmatic model eye. Results Subjective measurements of meridional refractive error over the range −4D to + 4D agreed with astigmatic refractive errors predicted by the power of the model eye in the meridian of motion of the spinning disk. Conclusions Use of a Badal optometer to control laser speckle is a valid method for determining subjective refractive error at infrared wavelengths. Such an instrument will be useful for comparing objective measures of refractive error obtained for the human eye with autorefractors and wavefront aberrometers that employ infrared radiation.

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Accommodation and vergence responses to hyperopic demands during infancy and childhood

2010

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Danielle F. W. Teel

Differences between Wavefront and Subjective Refraction for Infrared Light

Longitudinal chromatic aberration of the human infant eye

The influence of accommodation and vergence coupling during visual development.

Design and Validation of an Infrared Badal Optometer for Laser Speckle

Accommodation and vergence responses to hyperopic demands during infancy and childhood

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