感受器后细胞对人明视视网膜电图a波的贡献。

Contribution of post-receptoral cells to the a-wave of the human photopic electroretinogram.

作者信息

Bradshaw Keith

机构信息

Vision Science, Ophthalmology Department, Addenbrookes Hospital, Hills Road, Cambridge CB2 2QQ, UK.

出版信息

Vision Res. 2007 Oct;47(22):2878-88. doi: 10.1016/j.visres.2007.07.021. Epub 2007 Sep 11.

DOI:10.1016/j.visres.2007.07.021

PMID:17850841

Abstract

ERGs were recorded to red flashes (0.01-50 phcdsm(2)) presented against a steady background (2000 sctd) or 0-300 ms after its suppression. The cone a-wave was altered in form and increased in amplitude in the dark. Peak amplitudes were doubled when the dark period was 50-100 ms and also when it was 150-200 ms. Measurement of the a-wave at fixed times showed that amplitude increase occurred at times later than 6-8 ms. The a-wave receives a significant negative-signal contribution from two post-receptoral mechanisms. These are adapted by weak backgrounds and recover their sensitivity extremely rapidly in the dark. The cone photocurrent alone contributes 40-70% of peak amplitude depending on stimulus intensity.

摘要

在稳定背景（2000 个 scotd）下或背景抑制后 0 - 300 毫秒，记录对红色闪光（0.01 - 50 phcdsm²）的视网膜电图（ERG）。在黑暗中，视锥细胞 a 波的形态发生改变且振幅增加。当黑暗期为 50 - 100 毫秒以及 150 - 200 毫秒时，峰值振幅加倍。在固定时间测量 a 波表明，振幅增加发生在 6 - 8 毫秒之后。a 波从两种感受器后机制接收显著的负信号贡献。这些机制在弱背景下适应，并在黑暗中极其迅速地恢复其敏感性。视锥细胞光电流单独贡献峰值振幅的 40 - 70%，这取决于刺激强度。

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感受器后细胞对人明视视网膜电图a波的贡献。

Contribution of post-receptoral cells to the a-wave of the human photopic electroretinogram.

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