Di Rosa Elisa, Brigadoi Sabrina, Cutini Simone, Tarantino Vincenza, Dell'Acqua Roberto, Mapelli Daniela, Braver Todd S, Vallesi Antonino
Department of Neuroscience & Padova Neuroscience Center, University of Padova, Padova, Italy; Department of Psychological & Brain Sciences, Washington University in St. Louis, St. Louis, USA.
Department of Developmental Psychology, University of Padova, Padova, Italy; Department of Information Engineering, University of Padova, Padova, Italy.
Neuroimage. 2019 Nov 15;202:116062. doi: 10.1016/j.neuroimage.2019.116062. Epub 2019 Jul 29.
Several studies have evaluated the effect of anodal transcranial direct current stimulation (tDCS) over the prefrontal cortex (PFC) for the enhancement of working memory (WM) performance in healthy older adults. However, the mixed results obtained so far suggest the need for concurrent brain imaging, in order to more directly examine tDCS effects. The present study adopted a continuous multimodal approach utilizing functional near-infrared spectroscopy (fNIRS) to examine the interactive effects of tDCS combined with manipulations of reward motivation. Twenty-one older adults (mean age = 69.7 years; SD = 5.05) performed an experimental visuo-spatial WM task before, during and after the delivery of 1.5 mA anodal tDCS/sham over the left prefrontal cortex (PFC). During stimulation, participants received performance-contingent reward for every fast and correct response during the WM task. In both sessions, hemodynamic activity of the bilateral frontal, motor and parietal areas was recorded across the entire duration of the WM task. Cognitive functions and reward sensitivity were also assessed with standard measures. Results demonstrated a significant impact of tDCS on both WM performance and hemodynamic activity. Specifically, faster responses in the WM task were observed both during and after anodal tDCS, while no differences were found under sham control conditions. However, these effects emerged only when taking into account individual visuo-spatial WM capacity. Additionally, during and after the anodal tDCS, increased hemodynamic activity relative to sham was observed in the bilateral PFC, while no effects of tDCS were detected in the motor and parietal areas. These results provide the first evidence of tDCS-dependent functional changes in PFC activity in healthy older adults during the execution of a WM task. Moreover, they highlight the utility of combining reward motivation with prefrontal anodal tDCS, as a potential strategy to improve WM efficiency in low performing healthy older adults.
多项研究评估了经颅直流电刺激(tDCS)作用于前额叶皮层(PFC)对提高健康老年人工作记忆(WM)表现的效果。然而,目前得到的结果不一,这表明需要同时进行脑成像,以便更直接地研究tDCS的效果。本研究采用了一种连续多模态方法,利用功能近红外光谱技术(fNIRS)来研究tDCS与奖励动机操作相结合的交互作用。21名老年人(平均年龄 = 69.7岁;标准差 = 5.05)在左侧前额叶皮层施加1.5 mA阳极tDCS/伪刺激之前、期间和之后执行一项实验性视觉空间WM任务。在刺激过程中,参与者在WM任务中每做出一个快速且正确的反应都会得到与表现相关的奖励。在两个阶段中,在WM任务的整个过程中记录双侧额叶、运动和顶叶区域的血流动力学活动。还使用标准测量方法评估了认知功能和奖励敏感性。结果表明,tDCS对WM表现和血流动力学活动均有显著影响。具体而言,在阳极tDCS期间和之后,WM任务中的反应都更快,而在伪刺激对照条件下未发现差异。然而,这些效应只有在考虑个体视觉空间WM容量时才会出现。此外,在阳极tDCS期间和之后,双侧PFC相对于伪刺激的血流动力学活动增加,而在运动和顶叶区域未检测到tDCS的影响。这些结果首次证明了在健康老年人执行WM任务期间,PFC活动存在依赖于tDCS的功能变化。此外,它们还强调了将奖励动机与前额叶阳极tDCS相结合的效用,这是提高低表现健康老年人WM效率的一种潜在策略。