Tinnitus and auditory cortex; Using adapted functional

机译：耳鸣和听觉皮层;使用适应功能

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摘要

Phantom sound perception (tinnitus) may arise from altered brain activity within auditory cortex. Auditory cortex neurons in tinnitus animal models show increased spontaneous firing rates. This may be a core characteristic of tinnitus. Functional near‐infrared spectroscopy (fNIRS) has shown similar findings in human auditory cortex. Current fNIRS approaches with cap recordings are limited to ∼3 cm depth of signal penetration due to the skull thickness. To address this limitation, we present an innovative fNIRS approach via probes adapted to the external auditory canal. The adapted probes were placed deeper and closer to temporal lobe of the brain to bypass confining skull bone and improve neural recordings.

机译：幻影声音感知（耳鸣）可能来自听觉皮层中的改变的大脑活动。耳鸣动物模型中的听觉皮质神经元显示出自发射击率增加。这可能是耳鸣的核心特征。功能近红外光谱（Fnirs）在人体听觉皮层中显示了类似的结果。由于颅骨厚度，电流使用盖录录录录录录录录录的方法限制为〜3cm的信号穿透深度。为了解决这一限制，我们通过适应外耳道运河的探针提出了一种创新的FNIR方法。将适应的探针更深，更接近大脑的颞叶，以绕过限制的头骨骨并改善神经记录。

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期刊名称 Laryngoscope Investigative Otolaryngology
作者
Tianqu Zhai; Angela Ash‐Rafzadeh; Xiaosu Hu; Jessica Kim; Juan D. San Juan; Charles Filipiak; Kaiwen Guo; Mohammed N. Islam; Ioulia Kovelman; Gregory J. Basura;
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作者单位

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年(卷),期 2021(6),1
年度 2021
页码 137–144
总页数 8
原文格式 PDF
正文语种
中图分类耳鼻喉科学;
关键词
auditory cortex; functional near‐infrared spectroscopy; hemodynamic responses; tinnitus;

机译：听觉皮质;功能近红外光谱;血液动力学响应;耳鸣;

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专利

1. Tinnitus Distress is Linked to Enhanced Resting-State Functional Connectivity from the Limbic System to the Auditory Cortex [J] . Chen Yu-Chen, Xia Wenqing, Chen Huiyou, Human brain mapping . 2017,第5期

机译：耳鸣窘迫与从肢体系统到听觉皮层的增强静态功能连接
2. Increased striatal functional connectivity with auditory cortex in tinnitus [J] . Leighton B. Hinkley, Danielle Mizuiri, OiSaeng Hong, Frontiers in Human Neuroscience . 2015,第7期

机译：耳鸣听皮层增加纹状体功能连接
3. Functional and structural aspects of tinnitus-related enhancement and suppression of auditory cortex activity. [J] . Diesch E, Andermann M, Flor H, NeuroImage . 2010,第4期

机译：耳鸣相关的功能和结构方面的增强和抑制听觉皮层活动。
4. Tinnitus: the dark side of the auditory cortex plasticity [C] . Christo Pantev, Hidehiko Okamoto, Henning Teismann Neurosciences and Music Conference . 2012

机译：耳鸣：听觉皮质可塑性的黑暗面
5. Dynamic and Adaptive Processing of Speech in the Human Auditory Cortex [D] . ?Khalighinejad, Bahar 2020

机译：在人类听觉皮层的讲话和动态自适应处理
6. Tinnitus distress is linked to enhanced resting‐state functional connectivity from the limbic system to the auditory cortex [O] . Yu‐Chen Chen, Wenqing Xia, Huiyou Chen, 2017

机译：耳鸣困扰与从边缘系统到听觉皮层的增强的静息状态功能连接有关
7. Tinnitus distress is linked to enhanced resting-state functional connectivity from the limbic system to the auditory cortex [O] . Yu-Chen Chen, Wenqing Xia, Huiyou Chen, 2017

机译：耳鸣窘迫与从肢体系统到听觉皮层的增强静态功能连接

Tinnitus and auditory cortex; Using adapted functional

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