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老年人视杆与视锥系统闪光视网膜电图的研究

Age-related changes of electroretinograms of cone and rod system in the elderly
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摘要 目的应用闪光视网膜电图(flash—electroretinogram,F—ERG)了解随着年龄的增长,正常人视网膜视杆和视锥两系统功能学上的变化特点。方法113例(192眼)20岁至75岁经检查无眼科疾病的正常人进行标准ERG检测,着重分析暗视视杆和明视30HZ闪烁光反应的变化特点。结果老年前期组和老年组暗视视杆反应的b波幅值比青年组分别降低20.98%和43.97%,而在明视闪烁光反应仅比青年组分别降低3.28%和7.46%。暗视视杆和明视闪烁光反应的b波幅值与年龄均呈线性负相关关系,暗视视杆反应的回归系数的绝对值大于明视30HZ反应。结论随着年龄的增长,视杆系统功能哀退的速度快于视锥系统。老年人更需注意暗视功能下降带来的危害。 Objective To investigate aging-related changes of the rod system and cone system function of the normal retina by flash-electroretinography (F-ERG). Methods Standard electroretinograms (ERGs) were recorded in 192 eyes of 113 normal volunteers (age range 20 - 75 years old) with no ophthalmologic disease. Dark-adapted rod ERGs and lightadapted 30HZ flicker ERGs were analyzed. Results The amplitudes of scotopic rod response of the presenium and older age-groups decreased by 20.98 % and 43.97%, respectively. Compared with the young group, they were only 3.28% and 7.46 % in 30HZ flicker response. The amptlitudes of b-wave in both Dark-adapted rod ERGs and light-adapted 30HZ flicker ERGs were negatively and linearly correlated with age. The absolute value of regression coefficient of Dark-adapted rod ERGs was much hither than that of 30HZ flicker ERGs. Conelusion The function of the rod system is more vulnerable to age than that of the cone system. The elderty people should be more aware of risks from decreased scotopic function.
作者 王川 邱庆华 宫媛媛 吴星伟 许迅
机构地区 上海交通大学附属第一人民医院眼科
出处 《老年医学与保健》 CAS 2009年第3期154-156,共3页 Geriatrics & Health Care
关键词 视杆(视网膜) 视锥(视网膜) 视网膜电描记术 衰老 Rods (Retina) Cones (Retina) Electroretinography Aging
分类号 R774.1 [医药卫生—眼科]
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参考文献11

  • 1邹海东,张皙,许迅,王伟伟,李桂平,俞虹.上海市北新泾街道老年人低视力和盲的流行病学调查[J].中华眼科杂志,2002,38(12):744-746. 被引量:83
  • 2Curcio CA,Millican CL,Allen KA,et al.Aging of the human photoreceptor mosaic:evidence for selective vulnerability of rods in central retina.Invest Ophthalmol Vis Sci,1993,34 (12):3278-3296.
  • 3Jackson GR,Owsley C,Curcio CA.Photoreceptor degeneration and dysfunction in aging and age-related maculopathy.Ageing Res Rev,2002,1 (3):381-396.
  • 4Bonnel S,Mohand-Said S,Sahel JA.The aging of the retina.Exp Gerontol,2003,38 (8):825-831.
  • 5Gao H,Hollyfield JG.Aging of the human retina.Differential loss of neurons and retinal pigment epithelial cells.Invest Ophthalmol Vis Sci,1992,33 (1):1-17.
  • 6Moore DJ,Ciover GM.The effect of age on the macromolecular permeability of human Bruch's membrane.Invest Ophthalmol Vis Sci,2001 Nov,42 (12):2970-2975.
  • 7Wassell J,Davies S,Bardsley W,et al.The photoreactivity of the retinal age pigment lipofuscin.J Biol chem,1999,274:23828-23832.
  • 8Kemp CM,Jacobson SG,Faulkner DJ,et al.Visual function and rhodopsin levels in humans with vitamin A deficiency.Exp Eye Res,1988,46 (2):185-197.
  • 9范先群,张芸芸,李海生,奚渭清,王仁.神经递质对暗视阈值反应的作用研究[J].上海第二医科大学学报,1999,19(1):12-15. 被引量:2
  • 10Hampson EC,Vaney DI,Weiler R.Dopaminergic modulation of gap junction permeability between amacrine cells in mammalian retina.I Neurosci,1992,12 (12):4911-4922.

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老年医学与保健
2009年 第3期

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