Donders Institute for Brain, Cognition, and Behaviour, Radboud University, Nijmegen 6525 EN, the Netherlands.
Department of Psychological and Brain Sciences, Boston University, Boston, Massachusetts 02215.
J Neurosci. 2024 Oct 16;44(42):e1522232024. doi: 10.1523/JNEUROSCI.1522-23.2024.
Neural responses are naturally variable from one moment to the next, even when the stimulus is held constant. What factors might underlie this variability in neural population activity? We hypothesized that spontaneous fluctuations in cortical stimulus representations are created by changes in arousal state. We tested the hypothesis using a combination of fMRI, probabilistic decoding methods, and pupillometry. Human participants (20 female, 12 male) were presented with gratings of random orientation. Shortly after viewing the grating, participants reported its orientation and gave their level of confidence in this judgment. Using a probabilistic fMRI decoding technique, we quantified the precision of the stimulus representation in the visual cortex on a trial-by-trial basis. Pupil size was recorded and analyzed to index the observer's arousal state. We found that the precision of the cortical stimulus representation, reported confidence, and variability in the behavioral orientation judgments varied from trial to trial. Interestingly, these trial-by-trial changes in cortical and behavioral precision and confidence were linked to pupil size and its temporal rate of change. Specifically, when the cortical stimulus representation was more precise, the pupil dilated more strongly prior to stimulus onset and remained larger during stimulus presentation. Similarly, stronger pupil dilation during stimulus presentation was associated with higher levels of subjective confidence, a secondary measure of sensory precision, as well as improved behavioral performance. Taken together, our findings support the hypothesis that spontaneous fluctuations in arousal state modulate the fidelity of the stimulus representation in the human visual cortex, with clear consequences for behavior.
神经反应在时刻之间是自然变化的,即使刺激保持不变。哪些因素可能是神经群体活动这种可变性的基础?我们假设皮层刺激表示的自发波动是由觉醒状态的变化引起的。我们使用 fMRI、概率解码方法和瞳孔测量法的组合来测试这个假设。人类参与者(20 名女性,12 名男性)被呈现随机方向的光栅。在观看光栅后不久,参与者报告了它的方向,并对他们的判断的置信度进行了评估。使用概率 fMRI 解码技术,我们在逐次试验的基础上量化了视觉皮层中刺激表示的精度。记录并分析瞳孔大小以指示观察者的觉醒状态。我们发现,皮层刺激表示的精度、报告的置信度以及行为定向判断的变异性在试验之间都有所不同。有趣的是,皮层和行为精度和置信度的这些逐次试验变化与瞳孔大小及其时间变化率有关。具体来说,当皮层刺激表示更精确时,瞳孔在刺激开始前会更强烈地扩张,并在刺激呈现期间保持更大。同样,刺激呈现期间更强的瞳孔扩张与更高的主观置信度、感官精度的次要衡量标准以及行为表现的改善相关。总之,我们的研究结果支持了这样一种假设,即觉醒状态的自发波动调节了人类视觉皮层中刺激表示的保真度,对行为有明显的影响。