青光眼患者电生理、心理物理学及解剖学测量之间的关系

Relationship between electrophysiological, psychophysical, and anatomical measurements in glaucoma.

作者信息

Garway-Heath David F, Holder Graham E, Fitzke Fred W, Hitchings Roger A

机构信息

Glaucoma Research Unit, Moorfields Eye Hospital, City Road, London EC1V 2PD, UK.

出版信息

Invest Ophthalmol Vis Sci. 2002 Jul;43(7):2213-20.

PMID:12091419

Abstract

PURPOSE

To evaluate the relationship between electrophysiological, psychophysical, and structural measurements in normal and glaucomatous eyes and to test the hypothesis that there is a continuous structure-function relationship between ganglion cell numbers and visual field sensitivity.

METHODS

Thirty-four normal subjects and 40 patients with glaucoma were examined with the pattern electroretinogram (PERG), perimetry and retinal tomography. Transient and steady state (SS) PERGs were recorded, and peak (P)-to-trough (N) amplitude was measured. The unit of differential light sensitivity (DLS) in perimetry is the decibel. The decibel is 10. log(1/Lambert), where the Lambert is the unit of test spot intensity. PERG amplitudes were correlated with decibel and 1/Lambert DLS for the central 18 degrees of the visual field and with neuroretinal rim area in the temporal part of the optic disc. Age-related changes in the structural and functional measurements were sought. The correlation between variables was investigated by linear and quadratic regression analysis. A quadratic (y = ax + bx(2) + c) fit was taken to be significantly better than a linear fit, if the coefficient (b) for the x(2) term was significant at P < 0.05.

RESULTS

A quadratic fit between decibel DLS and PERG amplitude (transient PERG: R(2) = 0.40, P = 0.0000; SS PERG: R(2) = 0.32, P = 0.0000) was significantly better than a linear fit. There was a linear correlation between 1/Lambert DLS and PERG amplitude (transient PERG: R(2) = 0.44, P = 0.0000; SS PERG: R(2) = 0.35, P = 0.0000). There was a linear correlation between temporal neuroretinal rim area and PERG amplitude (transient PERG: R(2) = 0.17, P = 0.0003; SS PERG: R(2) = 0.20, P = 0.0001). A quadratic fit between decibel DLS and temporal neuroretinal rim area (R(2) = 0.38, P = 0.0000) was significantly better than a linear fit. There was a linear correlation between 1/Lambert DLS and temporal neuroretinal rim area (R(2) = 0.30, P = 0.0000). Both DLS and PERG amplitude declined with age in the normal subjects. The rate of decline was -0.17%, -0.74%, -0.75%, and -0.78% per year for decibel DLS, 1/Lambert DLS, transient PERG, and SS PERG, respectively.

CONCLUSIONS

There is a curvilinear relationship between decibel DLS and both PERG amplitude and neuroretinal rim area, and a linear relationship between 1/Lambert DLS and PERG amplitude and neuroretinal rim area. These findings support the hypothesis that there is no ganglion cell functional reserve but a continuous structure-function relationship, and that the impression of a functional reserve results from the logarithmic (decibel) scaling of the visual field.

摘要

目的

评估正常眼和青光眼眼中电生理、心理物理学及结构测量之间的关系，并检验神经节细胞数量与视野敏感度之间存在连续的结构-功能关系这一假设。

方法

对34名正常受试者和40名青光眼患者进行图形视网膜电图（PERG）、视野检查和视网膜断层扫描。记录瞬态和稳态（SS）PERG，并测量峰（P）到谷（N）的振幅。视野检查中差分光敏感度（DLS）的单位是分贝。分贝为10·log(1/朗伯)，其中朗伯是测试点强度的单位。PERG振幅与视野中央18度的分贝和1/朗伯DLS以及视盘颞侧部分的神经视网膜边缘面积相关。探寻结构和功能测量中与年龄相关的变化。通过线性和二次回归分析研究变量之间的相关性。如果x²项的系数（b）在P < 0.05时显著，则二次拟合（y = ax + bx² + c）被认为明显优于线性拟合。

结果

分贝DLS与PERG振幅之间的二次拟合（瞬态PERG：R² = 0.40，P = 0.0000；SS PERG：R² = 0.32，P = 0.0000）明显优于线性拟合。1/朗伯DLS与PERG振幅之间存在线性相关性（瞬态PERG：R² = 0.44，P = 0.0000；SS PERG：R² = 0.35，P = 0.0000）。颞侧神经视网膜边缘面积与PERG振幅之间存在线性相关性（瞬态PERG：R² = 0.17，P = 0.0003；SS PERG：R² = 0.20，P = 0.0001）。分贝DLS与颞侧神经视网膜边缘面积之间的二次拟合（R² = 0.38，P = 曲0.0000）明显优于线性拟合。1/朗伯DLS与颞侧神经视网膜边缘面积之间存在线性相关性（R² = 0.30，P = 0.0000）。正常受试者中，DLS和PERG振幅均随年龄下降。分贝DLS、1/朗伯DLS、瞬态PERG和SS PERG每年的下降率分别为-0.17%、-0.74%、-0.75%和-0.78%。