The aging lens: in vivo assessment of light absorption in 84 human eyes.

We have developed an apparatus and psychophysical paradigm for the reliable and practical measurement of light absorption by the human crystalline lens. Using this procedure we can partition a loss of sensitivity with aging into that attributable to changes in the lens and that due to other factors. The procedure eliminates effects of inaccurate refractive correction and misalignment, and reduces the effects of pupil size. Results on 84 eyes showed a gradual decrease in sensitivity with age, especially for short wavelengths. We noted considerable individual variability, which points up the value of using a procedure that assesses sensitivity loss due to lens absorption for each tested individual.

[1]  R. Weale,et al.  The variation with age of the spectral transmissivity of the living human crystalline lens. , 1959, Gerontologia.

[2]  J. J. Vos,et al.  Spectral transmission of the human ocular media. , 1974, Vision research.

[3]  K H Ruddock,et al.  The effect of age upon colour vision. II. Changes with age in light transmission of the ocular media. , 1965, Vision research.

[4]  J. V. van Best,et al.  Lens transmission of blue-green light in diabetic patients as measured by autofluorophotometry. , 1985, Investigative ophthalmology & visual science.

[5]  M. A. Mosier,et al.  Autofluorescence and light transmission in the aging crystalline lens. , 1986, Ophthalmologica. Journal international d'ophtalmologie. International journal of ophthalmology. Zeitschrift fur Augenheilkunde.

[6]  G. Robertson,et al.  Effect of age upon dark adaptation , 1944, The Journal of physiology.

[7]  T Tsuzuki,et al.  [Molecular genetics of human color vision]. , 1988, Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme.

[8]  J Mellerio,et al.  Light absorption and scatter in the human lens. , 1971, Vision research.

[9]  Richard G. Domey,et al.  Dark Adaptation as a Function of Age: Individual Prediction , 1961 .

[10]  F. Ederer Refereeing clinical research papers for statistical content. , 1985, American journal of ophthalmology.

[11]  J. Bowmaker,et al.  Spectral sensitivity and visual pigment absorbance. , 1973, Vision research.

[12]  G. F. Cooper,et al.  The yellow colour of the lens of man and other primates , 1969, The Journal of physiology.

[13]  R. Weale,et al.  Notes on the photometric significance of the human crystalline lens , 1961 .

[14]  S Coren,et al.  Density of human lens pigmentation: in vivo measures over an extended age range. , 1972, Vision research.

[15]  F. Ederer,et al.  Shall we count numbers of eyes or numbers of subjects? , 1973, Archives of ophthalmology.

[16]  Mitsuo Ikeda,et al.  Study of Flicker by Increment Threshold Technique , 1961 .

[17]  M A Mainster,et al.  The spectra, classification, and rationale of ultraviolet-protective intraocular lenses. , 1986, American journal of ophthalmology.

[18]  W A Ray,et al.  Statistical analysis of multi-eye data in ophthalmic research. , 1985, Investigative ophthalmology & visual science.

[19]  R. Zeimer,et al.  A new method of measuring in vivo the lens transmittance, and study of lens scatter, fluorescence and transmittance. , 1984, Ophthalmic research.

[20]  R. Weale,et al.  A BIOGRAPHY OF THE EYE , 1983 .