Aging and Neuroscience Laboratory, Federal University of Paraíba, João Pessoa, PB, Brazil.
Department of Physical Education, Federal University of Rio Grande do Norte, Natal, RN, Brazil.
Neurophysiol Clin. 2022 Apr;52(2):117-127. doi: 10.1016/j.neucli.2022.02.003. Epub 2022 Mar 24.
We aimed to examine the effects of multisite anodal transcranial direct current stimulation (tDCS) combined with cognitive stimulation (CS) over 2 months on cognitive performance and brain activity, and the relationship between them, in patients with Alzheimer's disease (AD).
Patients with AD were randomly assigned to an active tDCS+CS (n=18) or a sham tDCS+CS (n=18) group. Cognitive performance was assessed using the Alzheimer Disease Assessment Scale-cognitive subscale (ADAS-cog) and brain activity using EEG (spectral power and coherence analysis) before and after the intervention. Multisite anodal tDCS (2 mA, 30 min) was applied over six brain regions [left and right dorsolateral prefrontal cortex (F3 and F4), Broca's area (F5), Wernicke's area (CP5), left and right somatosensory association cortex (P3 and P4)] for 24 sessions (three times a week). Both groups performed CS during tDCS.
Anodal tDCS+CS delays cognitive decline (ADAS-cog change) to a greater extent than sham tDCS+CS (-3.4±1.1 vs. -1.7±0.4; p=.03). Bilateral EEG coherence at high and low frequencies was greater for the active tDCS+CS than sham+CS group for most electrode pairs assessed (p < .05). The post-intervention ADAS-cog change score was predictive for EEG coherence at different sites (R²=.59 to .68; p < .05) in the active but not in the sham tDCS+CS group.
Anodal tDCS+CS improved overall cognitive function and changed EEG brain activity compared to sham tDCS+CS. Changes in cognitive performance were associated with changes in EEG measures of brain activity. Anodal tDCS+CS appears to be a promising therapeutic strategy to modulate cortical activity and improve cognitive function in patients with AD.
我们旨在研究多部位阳极经颅直流电刺激(tDCS)联合认知刺激(CS)在 2 个月内对阿尔茨海默病(AD)患者认知表现和大脑活动的影响,以及它们之间的关系。
AD 患者被随机分配到活跃的 tDCS+CS(n=18)或假 tDCS+CS(n=18)组。在干预前后,使用阿尔茨海默病评估量表认知分量表(ADAS-cog)评估认知表现,使用 EEG(频谱功率和相干性分析)评估大脑活动。多部位阳极 tDCS(2 mA,30 分钟)应用于六个脑区[左、右侧背外侧前额叶(F3 和 F4)、布罗卡区(F5)、威尼克区(CP5)、左、右侧体感联合皮层(P3 和 P4)],共进行 24 次治疗(每周 3 次)。两组在 tDCS 期间均进行 CS。
与假 tDCS+CS 相比,阳极 tDCS+CS 更能延缓认知能力下降(ADAS-cog 变化),差异具有统计学意义[-3.4±1.1 比-1.7±0.4;p=.03]。与假 tDCS+CS 相比,活跃的 tDCS+CS 组在大多数评估的电极对上,高频和低频 EEG 相干性更高(p<.05)。干预后 ADAS-cog 变化评分可预测活跃 tDCS+CS 组而不是假 tDCS+CS 组不同部位的 EEG 相干性(R²=0.59 至 0.68;p<.05)。
与假 tDCS+CS 相比,阳极 tDCS+CS 改善了整体认知功能并改变了 EEG 大脑活动。认知表现的变化与 EEG 大脑活动测量的变化相关。阳极 tDCS+CS 似乎是一种有前途的治疗策略,可以调节 AD 患者的皮质活动并改善认知功能。
