Brain connectivity changes in response to cortical electrical stimulation in blind neuroprosthesis users.

IF 2.9 2区医学 Q2 NEUROSCIENCES

Cerebral cortex Pub Date : 2025-04-01 DOI:10.1093/cercor/bhaf075

Fernando Daniel Farfán, Leili Soo, Fabrizio Grani, María Dolores Grima-Murcia, Eduardo Fernández

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Abstract

The success of visual neuroprostheses in long-term blind individuals depends not only on the prosthetic technology but also on the brain's ability to readjust its multimodal sensory processing circuits. This study investigates longitudinal changes in resting-state cortical connectivity in two blind subjects implanted with an intracortical microelectrode array (10 × 10 Utah Electrode Array) in the visual cortex for 6 months. During this period, daily microstimulation sessions elicited phosphene perception, and periodic electroencephalographic recordings in the resting state were conducted. Cortical connectivity was quantified using spectral coherence across 64 electroencephalographic channels. Results revealed significant changes in connectivity patterns pre- and post-implantation, with linear trends observed during the implantation period. These trends varied between subjects: User 1 exhibited changes in the 7 to 13 Hz band, while user 2 showed changes in the 15 to 30 Hz band. This study highlights the brain's adaptive capacity in response to sensory restoration and provides insights into optimizing neuroplasticity for improved outcomes in neuroprosthetic interventions.

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盲人神经假体使用者在皮质电刺激下的脑连通性改变。

视觉神经假体在长期失明患者中的成功不仅取决于假体技术，还取决于大脑对其多模态感觉处理回路的重新调整能力。本研究对两名失明受试者在视觉皮层植入10 × 10犹他电极阵列6个月后静息状态皮质连通性的纵向变化进行了研究。在此期间，每天的微刺激会引起磷光幻视，并在静息状态下进行周期性脑电图记录。通过64个脑电图通道的频谱一致性来量化皮质连通性。结果显示，植入前后的连接模式发生了显著变化，在植入期间观察到线性趋势。这些趋势因受试者而异：用户1表现出7至13赫兹波段的变化，而用户2表现出15至30赫兹波段的变化。这项研究强调了大脑对感觉恢复的适应能力，并为优化神经可塑性以改善神经修复干预的结果提供了见解。

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

Cerebral cortex 医学-神经科学

CiteScore

6.30

自引率

8.10%

发文量

510

审稿时长

2 months

期刊介绍： Cerebral Cortex publishes papers on the development, organization, plasticity, and function of the cerebral cortex, including the hippocampus. Studies with clear relevance to the cerebral cortex, such as the thalamocortical relationship or cortico-subcortical interactions, are also included. The journal is multidisciplinary and covers the large variety of modern neurobiological and neuropsychological techniques, including anatomy, biochemistry, molecular neurobiology, electrophysiology, behavior, artificial intelligence, and theoretical modeling. In addition to research articles, special features such as brief reviews, book reviews, and commentaries are included.