Differing effectiveness of transcranial random noise stimulation and transcranial direct current stimulation for enhancing working memory in healthy individuals: a randomized controlled trial.

IF 5.2 2区医学 Q1 ENGINEERING, BIOMEDICAL

Journal of NeuroEngineering and Rehabilitation Pub Date : 2024-10-14 DOI:10.1186/s12984-024-01481-z

Yukina Tokikuni, Akihiro Watanabe, Hisato Nakazono, Hiroshi Miura, Ryuji Saito, Duan Miaowen, Kanako Fuyama, Keita Takahashi, Kazufumi Okada, Kazuhiro Sugawara, Harukazu Tohyama, Susumu Yoshida, Kenneth N K Fong, Daisuke Sawamura

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引用次数: 0

Abstract

Background: Transcranial direct current stimulation (tDCS) applied to the left dorsolateral prefrontal cortex (DLPFC) is a promising technique for enhancing working memory (WM) performance in healthy and psychiatric populations. However, limited information is available about the effectiveness of transcranial random noise stimulation (tRNS) applied to the left DLPFC on WM. This study investigated the effectiveness of tRNS on WM compared with that of tDCS, which has established functional evidence.

Methods: This randomized, double-blind, sham-controlled trial enrolled 120 healthy right-handed adults who were randomly allocated to four stimulation groups: tRNS + direct current (DC) offset, tRNS, tDCS, or sham. Each stimulus was placed over the left DLPFC and had a current intensity of 2 mA applied for 20 min during the dual n-back task. The dual n-back task was repeated thrice: pre-stimulation, during stimulation, and post-stimulation. The d-prime scores, and response times were calculated as the main outcome measures. A linear mixed model was created to identify the main effects and interactions between the groups and times, with the group and time as fixed effects, and baseline performance and the subject as a covariate and random effect, respectively. The relationships between the benefit of each stimulus and baseline WM performance were also examined.

Results: For the d-prime score during stimulation, the tRNS group significantly performed better than the sham group at online assessment (β = 0.310, p = 0.001). In the relationships between the benefit of each stimulus and baseline WM performance, the tRNS group had significantly larger negative line slopes than the sham group for the d-prime score (β = -0.233, p = 0.038).

Conclusions: tRNS applied to the left DLPFC significantly improved WM performance and generated greater benefits for healthy individuals with lower WM performance. These findings highlight the potential utility of tRNS for enhancing WM performance in individuals with lower WM performance and contribute evidence for clinical application to patients with cognitive decline.

Trial registration: This study was registered in the University Hospital Medical Information Network Clinical Trial Registry in Japan (UMIN000047365) on April 1, 2022; https://center6.umin.ac.jp/cgi-open-bin/ctr/ctr_view.cgi?recptno=R000054021 .

查看原文本刊更多论文

经颅随机噪声刺激和经颅直流电刺激对增强健康人工作记忆的不同效果：随机对照试验。

背景：对左侧背外侧前额叶皮层（DLPFC）进行经颅直流电刺激（tDCS）是一种很有前途的技术，可提高健康和精神病患者的工作记忆（WM）能力。然而，关于经颅随机噪声刺激（tRNS）应用于左侧前额叶皮层对工作记忆效果的信息却很有限。本研究调查了经颅随机噪声刺激（tRNS）与已有功能性证据的 tDCS 相比对 WM 的有效性：这项随机、双盲、假对照试验招募了 120 名健康的右利手成人，他们被随机分配到四个刺激组：tRNS + 直流偏移、tRNS、tDCS 或假刺激。每组刺激均置于左侧 DLPFC 上，电流强度为 2 mA，刺激时间为 20 分钟，刺激过程中进行双 N 向后任务。在刺激前、刺激中和刺激后重复三次双N-回任务。主要结果指标为 d-prime 分数和反应时间。我们建立了一个线性混合模型，以确定各组和时间之间的主效应和交互作用，其中组和时间为固定效应，基线表现和受试者分别为协变量和随机效应。研究还考察了每种刺激的益处与基线 WM 表现之间的关系：结果：就刺激期间的 d-prime 评分而言，tRNS 组在在线评估中的表现明显优于假组（β = 0.310，p = 0.001）。在每种刺激的益处与基线 WM 性能之间的关系中，tRNS 组在 d-prime 分数上的负线斜率明显大于假体组（β = -0.233，p = 0.038）。结论：应用于左侧 DLPFC 的 tRNS 能明显改善 WM 性能，并为 WM 性能较低的健康人带来更大益处。这些发现凸显了tRNS在提高WM性能较低个体的WM性能方面的潜在作用，并为临床应用于认知能力下降患者提供了证据：本研究于2022年4月1日在日本大学医院医疗信息网临床试验注册中心注册（UMIN000047365）；https://center6.umin.ac.jp/cgi-open-bin/ctr/ctr_view.cgi?recptno=R000054021 。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of NeuroEngineering and Rehabilitation 工程技术-工程：生物医学

CiteScore

9.60

自引率

3.90%

发文量

122

审稿时长

24 months

期刊介绍： Journal of NeuroEngineering and Rehabilitation considers manuscripts on all aspects of research that result from cross-fertilization of the fields of neuroscience, biomedical engineering, and physical medicine & rehabilitation.