大鼠视网膜电图。II.布洛赫定律与B波的潜伏期机制。

THE RAT ELECTRORETINOGRAM. II. BLOCH'S LAW AND THE LATENCY MECHANISM OF THE B-WAVE.

作者信息

CONE R A

出版信息

J Gen Physiol. 1964 Jul;47(6):1107-16. doi: 10.1085/jgp.47.6.1107.

DOI:10.1085/jgp.47.6.1107

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2195377/

Abstract

Electroretinograms were obtained from the all-rod eye of the rat with uniform illumination of the entire retina and stimulus flashes of less than 3 msec. duration. Bloch's law of temporal summation was verified for the b-wave latency by varying the time between two equal intensity flashes and observing that no change occurred in the latency when measured from the midpoint of the two flashes. The results of this and other experiments are described in terms of a simple but general model of the latency-determining mechanism. It is shown that this latency mechanism acts as if it depends on a linear additive process; and also that a hypothetical excitatory substance which triggers activity in the sources of the b-wave must accumulate rapidly in time after the flash, approximately as t(8). The rate at which this substance accumulates is accurately represented by the diffusion equation for more than 4 to 6 log units in the flash intensity. This suggests that the rate-determining step in the latency mechanism may be diffusion-limited.

摘要

在大鼠全视杆眼的整个视网膜受到均匀照明且刺激闪光持续时间少于3毫秒的情况下，获得了视网膜电图。通过改变两个等强度闪光之间的时间，并观察从两个闪光的中点测量时潜伏期没有变化，验证了布洛赫时间总和定律对b波潜伏期的适用性。本实验及其他实验的结果用一个简单但通用的潜伏期决定机制模型进行了描述。结果表明，这种潜伏期机制的作用就好像它依赖于一个线性相加过程；并且还表明，一种引发b波源活动的假设性兴奋性物质在闪光后必须在时间上迅速积累，近似于t(8)。在闪光强度超过4至6个对数单位时，该物质积累的速率由扩散方程准确表示。这表明潜伏期机制中的速率决定步骤可能受扩散限制。

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