Accommodative changes in lens diameter in rhesus monkeys.

PubWeight™: 1.28‹?› | Rank: Top 10%

🔗 View Article (PMC 2915931)

Published in Invest Ophthalmol Vis Sci on January 01, 2006


Adrian Glasser1, Mark Wendt, Lisa Ostrin

Author Affiliations

1: College of Optometry, University of Houston, Houston, Texas 77204-2020, USA.

Articles citing this

Quantification of age-related and per diopter accommodative changes of the lens and ciliary muscle in the emmetropic human eye. Invest Ophthalmol Vis Sci (2013) 1.78

Edinger-Westphal and pharmacologically stimulated accommodative refractive changes and lens and ciliary process movements in rhesus monkeys. Exp Eye Res (2006) 1.63

Predicting crystalline lens fall caused by accommodation from changes in wavefront error. J Cataract Refract Surg (2011) 1.40

Restoration of accommodation: surgical options for correction of presbyopia. Clin Exp Optom (2008) 1.33

Optomechanical response of human and monkey lenses in a lens stretcher. Invest Ophthalmol Vis Sci (2007) 1.19

Lens diameter and thickness as a function of age and pharmacologically stimulated accommodation in rhesus monkeys. Exp Eye Res (2008) 1.11

Changes in crystalline lens radii of curvature and lens tilt and decentration during dynamic accommodation in rhesus monkeys. J Vis (2008) 1.11

Extralenticular and lenticular aspects of accommodation and presbyopia in human versus monkey eyes. Invest Ophthalmol Vis Sci (2013) 1.00

Surgical intervention and accommodative responses, II: forward ciliary body accommodative movement is facilitated by zonular attachments to the lens capsule. Invest Ophthalmol Vis Sci (2008) 0.99

Biomechanical analysis of the accommodative apparatus in primates. Clin Exp Optom (2008) 0.97

Atomic force microscopy measurements of lens elasticity in monkey eyes. Mol Vis (2007) 0.92

Topical and intravenous pilocarpine stimulated accommodation in anesthetized rhesus monkeys. Exp Eye Res (2010) 0.86

Effects of pharmacologically manipulated amplitude and starting point on edinger-westphal-stimulated accommodative dynamics in rhesus monkeys. Invest Ophthalmol Vis Sci (2007) 0.85

Primate lens capsule elasticity assessed using Atomic Force Microscopy. Exp Eye Res (2011) 0.84

[Accommodation and presbyopia : part 1: physiology of accommodation and development of presbyopia]. Ophthalmologe (2008) 0.82

Role of the lens capsule on the mechanical accommodative response in a lens stretcher. Invest Ophthalmol Vis Sci (2008) 0.81

Objective measurement of accommodative biometric changes using ultrasound biomicroscopy. J Cataract Refract Surg (2015) 0.81

Edinger--Westphal stimulated accommodative dynamics in anesthetized, middle-aged rhesus monkeys. Exp Eye Res (2007) 0.79

Accuracy and resolution of in vitro imaging based porcine lens volumetric measurements. Exp Eye Res (2011) 0.78

Morphological study of the accommodative apparatus in the monkey eye. Anat Rec (Hoboken) (2014) 0.78

Measurement of Crystalline Lens Volume During Accommodation in a Lens Stretcher. Invest Ophthalmol Vis Sci (2015) 0.76

Articles cited by this

The mechanism of accommodation in primates. Ophthalmology (1999) 4.00

Presbyopia and the optical changes in the human crystalline lens with age. Vision Res (1998) 3.24

Cause and treatment of presbyopia with a method for increasing the amplitude of accommodation. Ann Ophthalmol (1992) 3.14

Age-related changes in human ciliary muscle and lens: a magnetic resonance imaging study. Invest Ophthalmol Vis Sci (1999) 2.52

Biometric, optical and physical changes in the isolated human crystalline lens with age in relation to presbyopia. Vision Res (1999) 2.28

Change in shape of the aging human crystalline lens with accommodation. Vision Res (2005) 1.97

Slit-lamp studies of the rhesus monkey eye: II. Changes in crystalline lens shape, thickness and position during accommodation and aging. Exp Eye Res (1987) 1.63

The force of contraction of the human ciliary muscle during accommodation. J Physiol (1977) 1.62

Inter-individual variability in the dynamics of natural accommodation in humans: relation to age and refractive errors. J Physiol (1993) 1.60

A population study on changes in wave aberrations with accommodation. J Vis (2004) 1.59

Reproducible stimulation of ciliary muscle contraction in the cynomolgus monkey via a permanent indwelling midbrain electrode. Brain Res (1989) 1.52

Age-dependent loss of accommodative amplitude in rhesus monkeys: an animal model for presbyopia. Invest Ophthalmol Vis Sci (1982) 1.46

Changes in the internal structure of the human crystalline lens with age and accommodation. Vision Res (2003) 1.39

Accommodation dynamics in aging rhesus monkeys. Am J Physiol (1998) 1.39

Polymer refilling of presbyopic human lenses in vitro restores the ability to undergo accommodative changes. Invest Ophthalmol Vis Sci (2003) 1.36

On the hydraulic suspension theory of accommodation. Trans Am Ophthalmol Soc (1986) 1.35

Age changes in rhesus monkey ciliary muscle: light and electron microscopy. Exp Eye Res (1988) 1.33

Age-related loss of ciliary muscle mobility in the rhesus monkey. Role of the choroid. Arch Ophthalmol (1992) 1.33

Dynamic accommodation in rhesus monkeys. Vision Res (2002) 1.31

Total iridectomy in the primate in vivo: surgical technique and postoperative anatomy. Invest Ophthalmol (1975) 1.26

Slit-lamp studies of the rhesus monkey eye. I. Survey of the anterior segment. Exp Eye Res (1987) 1.21

The role of the iris in accommodation of rhesus monkeys. Invest Ophthalmol Vis Sci (1990) 1.20

Presbyopia: an animal model and experimental approaches for the study of the mechanism of accommodation and ocular ageing. Eye (Lond) (1987) 1.18

The relationship between refractive and biometric changes during Edinger-Westphal stimulated accommodation in rhesus monkeys. Exp Eye Res (2005) 1.18

In vivo videography of the rhesus monkey accommodative apparatus. Age-related loss of ciliary muscle response to central stimulation. Arch Ophthalmol (1990) 1.17

Numerical modelling of the accommodating lens. Vision Res (2002) 1.13

Age-related loss of morphologic responses to pilocarpine in rhesus monkey ciliary muscle. Arch Ophthalmol (1988) 1.12

Dynamic accommodative changes in rhesus monkey eyes assessed with A-scan ultrasound biometry. Optom Vis Sci (2003) 1.10

A dual optic accommodating foldable intraocular lens. Br J Ophthalmol (2003) 1.09

Zonular function: a new hypothesis with clinical implications. Ann Ophthalmol (1994) 1.06

In vivo increase of the human lens equatorial diameter during accommodation. Am J Physiol (1996) 1.05

Wave aberrations of the isolated crystalline lens. J Vis (2003) 1.04

The development of presbyopia in primates. Trans Ophthalmol Soc U K (1982) 1.04

Mechanics of accommodation of the human eye. Vision Res (1999) 1.04

Spatially variant changes in lens power during ocular accommodation in a rhesus monkey eye. J Vis (2004) 1.01

Does the lens diameter increase or decrease during accommodation? Human accommodation studies: a new technique using infrared retro-illumination video photography and pixel unit measurements. Trans Am Ophthalmol Soc (1997) 0.99

Mathematic proof of Schachar's hypothesis of accommodation. Ann Ophthalmol (1993) 0.99

Aging of the human crystalline lens and presbyopia. Int Ophthalmol Clin (2001) 0.91

Theoretical basis for the scleral expansion band procedure for surgical reversal of presbyopia [SRP]. Compr Ther (2001) 0.89

Pseudophakic accommodation with translation lenses--dual optic vs mono optic. Ophthalmic Physiol Opt (2004) 0.88

Ultrasonic measurement of transverse lens diameter during accommodation. Ophthalmic Physiol Opt (1985) 0.88

Mechanism of human accommodation as analyzed by nonlinear finite element analysis. Compr Ther (2001) 0.86

Is the vitreous necessary for accommodation in man? Br J Ophthalmol (1983) 0.85

Accommodating intraocular lenses. Curr Opin Ophthalmol (2004) 0.84

Computer image analysis of ultrasound biomicroscopy of primate accommodation. Eye (Lond) (2006) 0.84

Qualitative effect of zonular tension on freshly extracted intact human crystalline lenses: implications for the mechanism of accommodation. Invest Ophthalmol Vis Sci (2004) 0.84

A physical model demonstrating Schachar's hypothesis of accommodation. Ann Ophthalmol (1994) 0.83

In vitro alteration of human lens curvatures by radial stretching. Exp Eye Res (1993) 0.83

A mathematical model of factors that influence the performance of accommodative intraocular lenses. Ophthalmic Physiol Opt (2004) 0.81

Pathophysiology of accommodation and presbyopia. Understanding the clinical implications. J Fla Med Assoc (1994) 0.79

A model for crystalline lens accommodation. Compr Ther (2003) 0.79

Experimental support for Schachar's hypothesis of accommodation. Ann Ophthalmol (1993) 0.78