Wicks Brittany, Waxler David E, White Kyle M, Duncan Nina, Bergmann Joy, Cole Robert D, Parikh Vinay, Bangasser Debra A
Department of Psychology and Neuroscience Program, Temple University, Philadelphia, PA 19122, United States.
Department of Psychology and Neuroscience Program, Temple University, Philadelphia, PA 19122, United States.
J Neurosci Methods. 2017 Feb 1;277:30-37. doi: 10.1016/j.jneumeth.2016.12.003. Epub 2016 Dec 8.
Sustained attention, the ability to detect rare and unpredictable events, is central to cognitive performance. This construct can be tested in rodents using a Sustained Attention Task (SAT), where rats are trained to detect an unpredictably occurring signal (a brief light presentation) from non-signal events. The traditional version of this task utilizes an operant chamber with a central panel light for the signal and two retractable response levers. Adaptation of SAT to the increasingly popular touchscreen operant chambers, which do not have levers or fixed lights, could enhance the versatility of the task.
Here we developed a touchscreen version of SAT where the light signal is presented in the center of the touchscreen, followed by a tone to indicate the beginning of the response period. Rats indicate their choice during this period by touching their nose to one of two touchscreen response areas. The remaining parameters were kept similar to the traditional version.
Rats acquired touchscreen SAT at a similar rate to the traditional version. As with the traditional version, shorter stimulus durations on the signaled trials reduced accuracy and the presence of a distractor (a flashing houselight) disrupted performance on the touchscreen version.
Collectively, these data suggest that the touchscreen version is comparable to the traditional version of the SAT, and is an equally valid way of measuring sustained attention.
Many researchers with touchscreen chambers could easily implement our modifications in order to study sustained attention.
持续注意力,即检测罕见和不可预测事件的能力,是认知表现的核心。这种能力可以在啮齿动物中通过持续注意力任务(SAT)进行测试,在该任务中,大鼠被训练从非信号事件中检测不可预测出现的信号(短暂的灯光呈现)。该任务的传统版本使用一个带有中央面板灯作为信号以及两个可伸缩反应杆的操作箱。将SAT改编为越来越流行的触摸屏操作箱(其没有杆或固定灯),可以提高该任务的通用性。
在这里,我们开发了一种触摸屏版本的SAT,其中光信号呈现在触摸屏中央,随后是一个音调以指示反应期开始。大鼠在此期间通过将鼻子触摸到两个触摸屏反应区域之一来表明它们的选择。其余参数与传统版本保持相似。
大鼠获得触摸屏SAT的速度与传统版本相似。与传统版本一样,信号试验中较短的刺激持续时间会降低准确性,并且干扰物(闪烁的饲养箱灯)的存在会干扰触摸屏版本的表现。
总体而言,这些数据表明触摸屏版本与SAT的传统版本相当,并且是测量持续注意力的同样有效的方法。
许多拥有触摸屏操作箱的研究人员可以轻松实施我们的修改,以研究持续注意力。