使用 fMRI 引导经颅磁刺激对睡眠剥夺引起的工作记忆缺陷进行扩展修复。

Extended remediation of sleep deprived-induced working memory deficits using fMRI-guided transcranial magnetic stimulation.

机构信息

Departments of Psychiatry and Behavioral Sciences, Duke University, Durham, NC 27710, USA.

出版信息

Sleep. 2013 Jun 1;36(6):857-71. doi: 10.5665/sleep.2712.

DOI:10.5665/sleep.2712

PMID:23729929

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3649828/

Abstract

STUDY OBJECTIVES

We attempted to prevent the development of working memory (WM) impairments caused by sleep deprivation using fMRI-guided repetitive transcranial magnetic stimulation (rTMS). Novel aspects of our fMRI-guided rTMS paradigm included the use of sophisticated covariance methods to identify functional networks in imaging data, and the use of fMRI-targeted rTMS concurrent with task performance to modulate plasticity effects over a longer term.

DESIGN

Between-groups mixed model.

SETTING

TMS, MRI, and sleep laboratory study.

PARTICIPANTS

27 subjects (13 receiving Active rTMS, and 14 Sham) completed the sleep deprivation protocol, with another 21 (10 Active, 11 Sham) non-sleep deprived subjects run in a second experiment.

INTERVENTIONS

Our previous covariance analysis had identified a network, including occipital cortex, which demonstrated individual differences in resilience to the deleterious effects of sleep deprivation on WM performance. Five Hz rTMS was applied to left lateral occipital cortex while subjects performed a WM task during 4 sessions over the course of 2 days of total sleep deprivation.

MEASUREMENTS AND RESULTS

At the end of the sleep deprivation period, Sham sleep deprived subjects exhibited degraded performance in the WM task. In contrast, those receiving Active rTMS did not show the slowing and lapsing typical in sleep deprivation, and instead performed similarly to non- sleep deprived subjects. Importantly, the Active sleep deprivation group showed rTMS-induced facilitation of WM performance a full 18 hours after the last rTMS session.

CONCLUSIONS

Over the course of sleep deprivation, these results indicate that rTMS applied concurrently with WM task performance affected neural circuitry involved in WM to prevent its full impact.

摘要

研究目的

我们试图通过 fMRI 引导的重复经颅磁刺激（rTMS）来预防睡眠剥夺引起的工作记忆（WM）损伤。我们 fMRI 引导 rTMS 范式的新颖之处包括使用复杂的协方差方法来识别成像数据中的功能网络，以及在任务执行期间使用 fMRI 靶向 rTMS 来在更长时间内调节可塑性效应。

设计

组间混合模型。

设置

TMS、MRI 和睡眠实验室研究。

参与者

27 名受试者（13 名接受主动 rTMS，14 名接受假刺激）完成了睡眠剥夺方案，另外 21 名（10 名主动，11 名假刺激）非睡眠剥夺受试者在第二个实验中进行了实验。

干预措施

我们之前的协方差分析已经确定了一个网络，包括枕叶皮层，该网络在对 WM 表现的睡眠剥夺的有害影响的恢复能力方面存在个体差异。在总共 2 天的睡眠剥夺期间，在 4 个疗程中，在受试者执行 WM 任务时，将 5 Hz rTMS 施加于左侧外侧枕叶皮层。

测量和结果

在睡眠剥夺期结束时，假刺激睡眠剥夺组在 WM 任务中的表现下降。相比之下，接受主动 rTMS 的组没有表现出睡眠剥夺中典型的减速和失误，而是表现得与非睡眠剥夺组相似。重要的是，主动睡眠剥夺组在最后一次 rTMS 疗程后 18 小时仍显示出 rTMS 诱导的 WM 表现增强。

结论

在睡眠剥夺过程中，这些结果表明，在 WM 任务执行期间施加的 rTMS 会影响参与 WM 的神经回路，以防止其全部影响。

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