Institut de Neurosciences Cognitives et Intégratives d'Aquitaine, CNRS UMR 5287, Université de Bordeaux, Bâtiment BBS - 2ème étage 2, Rue du Dr Hoffmann Martinot, Bordeaux, F-33000, France.
Imetronic®, Marcheprime, F- 33380, France.
Psychopharmacology (Berl). 2024 Jul;241(7):1319-1328. doi: 10.1007/s00213-024-06564-2. Epub 2024 Mar 6.
The 5-choice serial reaction time task (5-CSRTT) is commonly used to assess attention in rodents. Manipulation of this task by decreasing the light stimulus duration is often used to probe attentional capacity and causes a decrease in accuracy and an increase in omissions. However, although a decrease in response accuracy is commonly interpreted as a decrease in attention, it is more difficult to interpret an increase in omissions in terms of attentional performance.
Here we present a series of experiments in rats that seeks to investigate the origins of these key behavioral measures of attention in the 5-CSRTT. After an initial training in the 5-CSRTT, rats were tested in a variable stimulus duration procedure to increase task difficulty and probe visual attentional capacity under several specific controlled conditions.
We found that response accuracy reflects visuospatial sustained attentional processing, as commonly interpreted, while response omission reflects rats' ignorance about the stimulus location, presumably due to failure to pay attention to the curved wall during its presentation. Moreover, when rats lack of relevant information, they choose not to respond instead of responding randomly. Finally, pretreatment with nicotine selectively decreased response omissions, without affecting response accuracy, particularly when the attentional demand was high. Overall, our results indicate that response accuracy and response omission thus correspond to two distinct attentional states.
5 选择连续反应时任务(5-CSRTT)常用于评估啮齿动物的注意力。通过缩短光刺激持续时间来操纵此任务通常用于探测注意力容量,并导致准确性降低和遗漏增加。然而,尽管反应准确性的降低通常被解释为注意力的降低,但遗漏的增加在注意力表现方面更难解释。
在这里,我们在大鼠中进行了一系列实验,旨在研究 5-CSRTT 中这些关键注意力行为测量的起源。在 5-CSRTT 的初步训练后,大鼠在可变刺激持续时间程序中进行测试,以增加任务难度,并在几种特定控制条件下探测视觉注意力容量。
我们发现,反应准确性反映了通常解释的视觉空间持续注意力处理,而反应遗漏反映了大鼠对刺激位置的无知,可能是由于在呈现时未能注意到弯曲的墙壁。此外,当大鼠缺乏相关信息时,它们选择不响应而不是随机响应。最后,尼古丁预处理选择性地减少了反应遗漏,而不影响反应准确性,尤其是在注意力需求高时。总的来说,我们的结果表明,反应准确性和反应遗漏因此对应于两种不同的注意力状态。
