Ultrasound Produces Extensive Brain Activation via a Cochlear Pathway

Hongsun Guo; Mark Hamilton; Sarah J. Offutt; Cory D. Gloeckner; Tianqi Li; Yohan Kim; Wynn Legon; Jamu K. Alford; Hubert H. Lim

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Ultrasound Produces Extensive Brain Activation via a Cochlear Pathway

机译：超声波通过耳蜗途径产生广泛的脑激活

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Ultrasound (US) can noninvasively activate intact brain circuits, making it a promising neuromodulation technique. However, little is known about the underlying mechanism. Here, we apply transcranial US and perform brain mapping studies in guinea pigs using extracellular electrophysiology. We find that US elicits extensive activation across cortical and subcortical brain regions. However, transection of the auditory nerves or removal of cochlear fluids eliminates the US-induced activity, revealing an indirect auditory mechanism for US neural activation. Our findings indicate that US activates the ascending auditory system through a cochlear pathway, which can activate other non-auditory regions through cross-modal projections. This cochlear pathway mechanism challenges the idea that US can directly activate neurons in the intact brain, suggesting that future US stimulation studies will need to control for this effect to reach reliable conclusions.

机译：超声（美国）可以非侵入地激活完整的脑电路，使其成为有前途的神经调节技术。然而，关于潜在机制知之甚少。在这里，我们使用细胞外电生理学应用经颅美国并进行豚鼠的脑部映射研究。我们发现美国突出了皮质和皮尺大脑区域的广泛激活。然而，听觉神经或去除耳蜗流体的转化消除了美国诱导的活性，揭示了美国神经激活的间接听觉机制。我们的研究结果表明，美国通过耳蜗途径激活上升听觉系统，这可以通过跨模型投影激活其他非听觉区域。这种耳蜗途径机制挑战我们可以直接激活完整的大脑中神经元的想法，这表明未来美国刺激研究需要控制这种效果以达到可靠的结论。

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来源
《Neuron》 |2018年第5期|共11页
作者
Hongsun Guo; Mark Hamilton; Sarah J. Offutt; Cory D. Gloeckner; Tianqi Li; Yohan Kim; Wynn Legon; Jamu K. Alford; Hubert H. Lim;
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作者单位

Department of Biomedical Engineering University of Minnesota;

Department of Biomedical Engineering University of Minnesota;

Restorative Therapies Group Medtronic Inc;

Department of Biomedical Engineering University of Minnesota;

Department of Biomedical Engineering University of Minnesota;

Restorative Therapies Group Medtronic Inc;

Department of Rehabilitation Medicine Medical School University of Minnesota;

Restorative Therapies Group Medtronic Inc;

Department of Biomedical Engineering University of Minnesota;

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原文格式 PDF
正文语种 eng
中图分类神经病学;
关键词
ultrasound; neuromodulation; neurostimulation; noninvasive; transcranial; deep brain stimulation; hearing; somatosensory; auditory; hearing aid;

机译：超声;神经调节;神经刺激;无创刺激;经颅;深脑刺激;听力;躯体感应;听觉;助听器;

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专利

1. Ultrasound Produces Extensive Brain Activation via a Cochlear Pathway [J] . Hongsun Guo, Mark Hamilton, Sarah J. Offutt, Neuron . 2018,第5期

机译：超声波通过耳蜗途径产生广泛的脑激活
2. Ultrasound Enhances the Expression of Brain-Derived Neurotrophic Factor in Astrocyte Through Activation of TrkB-Akt and Calcium-CaMK Signaling Pathways [J] . Shing-HwaLiu, Yi-LongLai, Bo-LinChen, Cerebral cortex . 2017,第6期

机译：超声通过Trkb-akt和Calcium-Camk信号通路的激活增强了星形胶质细胞中脑源神经营养因子的表达
3. Extensive Basal Level Activation of Complement Mannose-Binding Lectin-Associated Serine Protease-3: Kinetic Modeling of Lectin Pathway Activation Provides Possible Mechanism [J] . Gábor Oroszlán, Ráhel Dani, András Szilágyi, Frontiers in Immunology . 2017,第1期

机译：综合甘露糖结合凝集素相关丝氨酸蛋白酶-3的广泛基础水平激活 - 3：凝集素途径激活的动力学建模提供了可能的机制
4. The activation of tissue factor by high intensity focused ultrasound—a pathway to acoustic-biochemical hemostasis [C] . Xinmai Yang, Frank E. Barber, James H. Morrissey, International Symposium on Therapeutic Ultrasound . 2006

机译：高强度聚焦超声波 - 一种声学止血途径的组织因子激活
5. Identifying and investigating metabolic pathways activated in high-producing California poppy suspension cultures. [D] . Oldham, John Thornton. 2010

机译：鉴定和研究在高产加州罂粟悬浮培养物中激活的代谢途径。
6. Activation of Signaling Pathways Following Localized Delivery of Systemically-Administered Neurotrophic Factors across the Blood-Brain Barrier Using Focused Ultrasound and Microbubbles [O] . Babak Baseri, James J. Choi, Thomas Deffieux, -1

机译：在使用聚焦超声和微泡的血脑屏障中局部递送的局部递送的信号传导途径的激活
7. Ultrasound Produces Extensive Brain Activation via a Cochlear Pathway [O] . Hongsun Guo, Mark Hamilton II, Sarah J. Offutt, 2018

机译：超声波通过耳蜗途径产生广泛的脑激活

Ultrasound Produces Extensive Brain Activation via a Cochlear Pathway

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