OCULAR DIMENSIONS AND REFRACTION IN TIBETAN CHILDREN

被引：40

作者：

GARNER, LF

YAP, MKH

KINNEAR, RF

FRITH, MJ

机构：

[1] Department of Optometry, The University of Auckland, Auckland

来源：

OPTOMETRY AND VISION SCIENCE | 1995年 / 72卷 / 04期

关键词：

REFRACTIVE ERROR; EYE GROWTH; OCULAR DIMENSIONS; MYOPIA; TIBETAN CHILDREN;

D O I：

10.1097/00006324-199504000-00007

中图分类号：

R77 [眼科学];

学科分类号：

100212 ;

摘要：

A cross-sectional study of 404 Tibetan children (212 males, 192 females) aged 6 to 16 years was conducted in the Bouda region of Kathmandu, Nepal in April, 1992. Examination procedures included retinoscopy (1% cyclopentolate HCl), keratometry A-scan ultrasonography, and video ophthalmophakometry. The mean refractive error was +1.11 D (SD: 0.56 D) at age 6 years decreasing to +0.63 D (SD: 0.34 D) at age 16 years with a prevalence of myopia in this group of 3.9%. Most children examined had low refractive errors, with 95.5% having errors in the range -0.50 to +1.50 D. Crystalline lens power decreased by 2.59 D, with an associated increase in its anterior radius of curvature of 1.98 mm and 0.49 mm in its posterior radius of curvature over the age range studied. Vitreous chamber depth increased by 0.69 mm, but no significant changes were recorded in anterior chamber depth, lens thickness, or corneal curvature. We conclude that the balance between the decrease in crystalline lens power and the increase in vitreous length is the major factor in maintaining the tendency to emmetropia in these children.

引用

页码：266 / 271

页数：6

共 24 条

[1]

Sorsby A., Benjamin B., Bennett A.G., Steiger on refraction: A reappraisal, Br J Ophthalmol, 65, pp. 805-811, (1981)

[2]

Sorsby A., Benjamin B., Davey J.B., Sheridan M., Tanner J.M., Emmetropia and Its Aberrations, (1957)

[3]

Sorsby A., Benjamin B., Sheridan M., Refraction and Its Components during the Growth of the Eye from the Age of Three, (1961)

[4]

Larsen J.S., The sagittal growth of the eye. I. Ultrasonic measurement of the depth of the anterior chamber from birth to puberty, Acta Ophthalmol (Kbh), 49, pp. 239-262, (1971)

[5]

Larsen J.S., The sagittal growth of the eye. II. Ultrasonic measurement of the axial diameter of the lens and the anterior segment from birth to puberty, Acta Ophthalmol (Kbh), 49, pp. 427-440, (1971)

[6]

Larsen J.S., The sagittal growth of the eye. III. Ultrasonic measurement of the posterior segment (axial length of the vitreous) from birth to puberty, Acta Ophthalmol (Kbh), 49, pp. 441-453, (1971)

[7]

Larsen J.S., The sagittal growth of the eye. IV. Ultrasonic measurement of the axial length of the eye from birth to puberty, Acta Ophthalmol (Kbh), 49, pp. 873-886, (1971)

[8]

Fledelius H.C., Ophthalmic changes from age 10 to 18 years. A longitudinal study of sequels to low birth weight. III. Ultrasound oculometry and keratometry of anterior eye segment, Acta Ophthalmol (Kbh), 60, pp. 393-402, (1982)

[9]

Fledelius H.C., Ophthalmic changes from age 10 to 18 years. A longitudinal study of sequels to low birth weight. IV. Ultrasound oculometry of vitreous and axial length, Acta Ophthalmol (Kbh), 60, pp. 403-411, (1982)

[10]

Garner L.F., Kinnear R.F., McKellar M., Klinger J., Hovander M.S., Grosvenor T.P., Refraction and its components in Melanesian school children in Vanuatu, Am J Optom Physiol Opt, 65, pp. 182-189, (1988)

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