David A. Atchison scite author profile

Although there are considerable individual variations, in general myopic eyes are elongated relative to emmetropic eyes, more in length than in height and even less in width. Approximately a quarter of the myopic participants fitted each of the global expansion or axial elongation model exclusively. The small proportions are due primarily to the large variability in the dimensions of emmetropic eyes.

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Peripheral refraction along the horizontal and vertical visual fields in myopia

Atchison

2006

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Peripheral refractions were measured to 35 degrees eccentricity using a free-space autorefractor in young adult emmetropic and myopic subjects. Refractions were measured along horizontal and vertical visual fields for 116 subjects and a 43 subject subset, respectively. Along the horizontal visual field, peripheral myopic shifts in spherical equivalent M of emmetropes changed to relative hypermetropic shifts in the myopes, there were temporal-nasal asymmetries of 90 degrees to 180 degrees astigmatism J(180) which decreased as myopia increased, and 45 degrees to 135 degrees astigmatism J(45) was linearly related to field angle. Along the vertical visual field, both peripheral myopic shifts in peripheral M and J(180) asymmetry were unaffected by magnitude of myopia, and J(45) changed at three times the rate as for the horizontal visual field. Myopia has more effect on peripheral refraction of adult eyes along the horizontal than along the vertical visual field. The peripheral variations in refraction match well what is known about the shapes of emmetropic and myopic eyes.

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Refractive index distribution and optical properties of the isolated human lens measured using magnetic resonance imaging (MRI)

et al. 2005

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Using a non-invasive MRI technique for measuring the refractive index distribution through the crystalline lens, refractive index maps were obtained through 20 intact isolated human lenses (7-82years). Focal length measurements, obtained by simulated light ray propagation through each index map were found to be in agreement with direct measurements performed on a scanning laser apparatus. With increasing age, the refractive index profiles became flatter in the central region, accompanied by steepening of the profile in the periphery. This appears to be an important mechanism underlying the observed changes in power and longitudinal aberration of the human lens.

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Shape of the Retinal Surface in Emmetropia and Myopia

Atchison

Pritchard

Schmid

et al. 2005

Invest. Ophthalmol. Vis. Sci.

229

203

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Age-related changes in optical and biometric characteristics of emmetropic eyes

et al. 2008

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David A. Atchison

Eye Shape in Emmetropia and Myopia

Peripheral refraction along the horizontal and vertical visual fields in myopia

Refractive index distribution and optical properties of the isolated human lens measured using magnetic resonance imaging (MRI)

Shape of the Retinal Surface in Emmetropia and Myopia

Age-related changes in optical and biometric characteristics of emmetropic eyes

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