实验性青光眼与灵长类动物外侧膝状体核中的细胞大小、密度和数量

Experimental glaucoma and cell size, density, and number in the primate lateral geniculate nucleus.

作者信息

Weber A J, Chen H, Hubbard W C, Kaufman P L

机构信息

Department of Physiology, Neuroscience Program, and Center for Clinical Neuroscience and Ophthalmology, Michigan State University, East Lansing 48824, USA.

出版信息

Invest Ophthalmol Vis Sci. 2000 May;41(6):1370-9.

PMID:10798652

Abstract

PURPOSE

To examine the effects that elevated intraocular pressure (IOP), a glaucoma risk factor, has on the size, density, and number of neurons in the primate lateral geniculate nucleus (LGN).

METHODS

The monkey model of experimental glaucoma was combined with standard histologic staining and analysis techniques. Fourteen animals were examined.

RESULTS

Mean IOPs higher than 40 mm Hg for 2.5, 4, 8, and 24 weeks resulted in reductions of 10% to 58% in the cross-sectional areas of LGN neurons receiving input from the glaucomatous eye. Reductions for animals with lower mean IOPs (37 and 28 mm Hg) for 16 and 27 weeks were 16% and 30%, respectively. Neurons receiving input from the normal eye also were reduced in size (4 -26%). No differential effect in cell size was seen for magnocellular versus parvocellular neurons. Elevation of IOP resulted in an increase in cell density in all layers of the LGN. The increase was approximately two times greater in parvocellular (59%) than magnocellular (31%) layers. When corrected for volumetric shrinkage of the LGN, the estimated loss of neurons was approximately four times greater in the magnocellular than parvocellular layers (38% versus 10%).

CONCLUSIONS

Elevation of IOP affects the size, density, and number of neurons in the LGN, and the volume of the nucleus itself. Although higher mean pressures (more than 40 mm Hg) reduce the period during which these changes occur, comparable damage can be achieved by even moderate (28 -37 mm Hg) levels of elevated IOP. On the basis of cell loss, elevation of IOP appears to have a more profound degenerative effect on the magnocellular than on the parvocellular regions of the LGN.

摘要

目的

研究青光眼危险因素——眼内压（IOP）升高对灵长类外侧膝状体核（LGN）中神经元大小、密度和数量的影响。

方法

将实验性青光眼的猴子模型与标准组织学染色及分析技术相结合。对14只动物进行了检查。

结果

平均眼压高于40 mmHg持续2.5、4、8和24周，导致接受青光眼患眼输入的LGN神经元横截面积减少10%至58%。平均眼压较低（37和28 mmHg）持续16和27周的动物，神经元横截面积减少分别为16%和30%。接受正常眼输入的神经元大小也减小（4%-26%）。大细胞神经元和小细胞神经元在细胞大小上未见差异效应。眼压升高导致LGN各层细胞密度增加。小细胞层（59%）的增加幅度约为大细胞层（31%）的两倍。校正LGN体积缩小后，大细胞层神经元估计损失约为小细胞层的四倍（38%对10%）。

结论

眼压升高会影响LGN中神经元的大小、密度和数量以及核本身的体积。虽然较高的平均眼压（超过40 mmHg）会缩短这些变化发生的时间，但即使是中度（28-37 mmHg）的眼压升高也会造成相当的损害。基于细胞丢失情况，眼压升高对LGN大细胞区域的退行性影响似乎比对小细胞区域更为严重。

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实验性青光眼与灵长类动物外侧膝状体核中的细胞大小、密度和数量

Experimental glaucoma and cell size, density, and number in the primate lateral geniculate nucleus.

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出版信息

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METHODS

RESULTS

CONCLUSIONS

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方法

结果

结论

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