Theta-gamma-coupling as predictor of working memory performance in young and elderly healthy people.

IF 3.3 3区 医学 Q2 NEUROSCIENCES Molecular Brain Pub Date : 2024-10-16 DOI:10.1186/s13041-024-01149-8
Mohammed Abubaker, Wiam Al Qasem, Kateřina Pilátová, Petr Ježdík, Eugen Kvašňák
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Abstract

The relationship between working memory (WM) and neuronal oscillations can be studied in detail using brain stimulation techniques, which provide a method for modulating these oscillations and thus influencing WM. The endogenous coupling between the amplitude of gamma oscillations and the phase of theta oscillations is crucial for cognitive control. Theta/gamma peak-coupled transcranial alternating current stimulation (TGCp-tACS) can modulate this coupling and thus influence WM performance. This study investigated the effects of TGCp-tACS on WM in older adults and compared their responses with those of younger participants from our previous work who underwent the same experimental design. Twenty-eight older subjects underwent both TGCp-tACS and sham stimulation sessions at least 72 h apart. Resting-state electroencephalography (EEG) was recorded before and after the interventions, and a WM task battery with five different WM tasks was performed during the interventions to assess various WM components. Outcomes measured included WM task performance (e.g., accuracy, reaction time (RT)) and changes in power spectral density (PSD) in different frequency bands. TGCp-tACS significantly decreased accuracy and RT on the 10- and 14-point Sternberg tasks and increased RT on the Digit Symbol Substitution Test in older adults. In contrast, younger participants showed a significant increase in accuracy only on the 14-item Sternberg task. Electrophysiological analysis revealed a decrease in delta and theta PSD and an increase in high gamma PSD in both younger and older participants after verum stimulation. In conclusion, theta-gamma coupling is essential for WM and modulation of this coupling affects WM performance. The effects of TGCp-tACS on WM vary with age due to natural brain changes. To better support older adults, the study suggests several strategies to improve cognitive function, including: Adjusting stimulation parameters, applying stimulation to two sites, conducting multiple sessions, and using brain imaging techniques for precise targeting.

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θ-伽马耦合是预测年轻人和老年人工作记忆能力的指标。
利用脑刺激技术可以详细研究工作记忆(WM)与神经元振荡之间的关系,这种技术提供了一种调节这些振荡从而影响 WM 的方法。伽马振荡的振幅和θ振荡的相位之间的内源性耦合对认知控制至关重要。θ/γ峰值耦合经颅交变电流刺激(TGCp-tACS)可以调节这种耦合,从而影响 WM 的表现。本研究调查了 TGCp-tACS 对老年人 WM 的影响,并将他们的反应与我们之前工作中接受相同实验设计的年轻受试者的反应进行了比较。28 名老年受试者同时接受了 TGCp-tACS 和假刺激,两次刺激至少间隔 72 小时。在干预前后记录了静息状态脑电图(EEG),并在干预期间执行了包含五种不同 WM 任务的 WM 任务电池,以评估各种 WM 成分。测量结果包括 WM 任务表现(如准确性、反应时间 (RT))和不同频段的功率谱密度 (PSD) 变化。TGCp-tACS 明显降低了老年人在 10 点和 14 点 Sternberg 任务中的准确性和反应时间,并提高了数字符号替换测试的反应时间。相比之下,年轻参与者仅在 14 点 Sternberg 任务中的准确率有明显提高。电生理分析表明,在verum刺激后,年轻和老年参与者的delta和theta PSD都有所下降,而高γ PSD则有所上升。总之,θ-γ耦合对 WM 至关重要,而调节这种耦合会影响 WM 的表现。由于大脑的自然变化,TGCp-tACS 对 WM 的影响随年龄而变化。为了更好地支持老年人,研究提出了几种改善认知功能的策略,包括调整刺激参数、对两个部位进行刺激、进行多次治疗以及使用脑成像技术进行精确定位。
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来源期刊
Molecular Brain
Molecular Brain NEUROSCIENCES-
CiteScore
7.30
自引率
0.00%
发文量
97
审稿时长
>12 weeks
期刊介绍: Molecular Brain is an open access, peer-reviewed journal that considers manuscripts on all aspects of studies on the nervous system at the molecular, cellular, and systems level providing a forum for scientists to communicate their findings. Molecular brain research is a rapidly expanding research field in which integrative approaches at the genetic, molecular, cellular and synaptic levels yield key information about the physiological and pathological brain. These studies involve the use of a wide range of modern techniques in molecular biology, genomics, proteomics, imaging and electrophysiology.
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