Mitchell Jude F, Sundberg Kristy A, Reynolds John H
Systems Neurobiology Lab, The Salk Institute, La Jolla, CA 92037-1099, USA.
Neuron. 2009 Sep 24;63(6):879-88. doi: 10.1016/j.neuron.2009.09.013.
Attention typically amplifies neuronal responses evoked by task-relevant stimuli while attenuating responses to task-irrelevant distracters. In this context, visual distracters constitute an external source of noise that is diminished to improve attended signal quality. Activity that is internal to the cortex itself, stimulus-independent ongoing correlated fluctuations in firing, might also act as task-irrelevant noise. To examine this, we recorded from area V4 of macaques performing an attention-demanding task. The firing of neurons to identically repeated stimuli was highly variable. Much of this variability originates from ongoing low-frequency (<5 Hz) fluctuations in rate correlated across the neuronal population. When attention is directed to a stimulus inside a neuron's receptive field, these correlated fluctuations in rate are reduced. This attention-dependent reduction of ongoing cortical activity improves the signal-to-noise ratio of pooled neural signals substantially more than attention-dependent increases in firing rate.
注意力通常会增强与任务相关刺激所诱发的神经元反应,同时减弱对与任务无关的干扰物的反应。在这种情况下,视觉干扰物构成了一种外部噪声源,通过减弱该噪声源来提高被关注信号的质量。皮层自身内部的活动,即与刺激无关的持续放电相关波动,也可能充当与任务无关的噪声。为了对此进行研究,我们记录了执行一项需要注意力的任务的猕猴V4区的活动。神经元对相同重复刺激的放电具有高度可变性。这种可变性大部分源于神经元群体中速率的持续低频(<5赫兹)波动。当注意力指向神经元感受野内的一个刺激时,这些速率相关波动会减小。这种与注意力相关的持续皮层活动的减少,比与注意力相关的放电率增加能更显著地提高汇总神经信号的信噪比。