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I see where you're hearing: how cross-modal plasticity may exploit homologous brain structures.

作者信息

Bavelier Daphne, Hirshorn Elizabeth A

出版信息

Nat Neurosci. 2010 Nov;13(11):1309-11. doi: 10.1038/nn1110-1309.

DOI:10.1038/nn1110-1309
PMID:20975752
Abstract
摘要

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I see where you're hearing: how cross-modal plasticity may exploit homologous brain structures.我明白你所说的意思了:跨模态可塑性如何利用同源脑结构。
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2
Why seeing is believing: merging auditory and visual worlds.为何眼见为实:融合听觉与视觉世界。
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3
How vision matters for individuals with hearing loss.视力对于听力损失者有多重要。
Int J Audiol. 2007 Sep;46(9):500-11. doi: 10.1080/14992020701383050.
4
[Corticofugal modulation and plasticity for hearing].[听觉的皮质下行调制与可塑性]
Sheng Li Ke Xue Jin Zhan. 2005 Apr;36(2):175-8.
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Adaptive crossmodal plasticity in deaf auditory cortex: areal and laminar contributions to supranormal vision in the deaf.聋人听觉皮层的自适应跨模态可塑性:聋人超正常视觉的区域和分层贡献。
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Visual stimuli activate auditory cortex in the deaf.视觉刺激可激活聋人的听觉皮层。
Nat Neurosci. 2001 Dec;4(12):1171-3. doi: 10.1038/nn763.
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Visual activation of auditory cortex reflects maladaptive plasticity in cochlear implant users.听觉皮层的视觉激活反映了人工耳蜗使用者适应性不良的可塑性。
Brain. 2012 Feb;135(Pt 2):555-68. doi: 10.1093/brain/awr329. Epub 2012 Jan 9.
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Cortical and thalamic connectivity of the auditory anterior ectosylvian cortex of early-deaf cats: Implications for neural mechanisms of crossmodal plasticity.早期致聋猫听觉前外侧沟皮质与丘脑的连接:对跨模态可塑性神经机制的启示
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Absence of cross-modal reorganization in the primary auditory cortex of congenitally deaf cats.先天性耳聋猫初级听觉皮层中跨模态重组的缺失。
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Cross-modal plasticity in specific auditory cortices underlies visual compensations in the deaf.特定听觉皮层的跨模态可塑性为聋人提供了视觉补偿。
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本文引用的文献

1
Cross-modal plasticity in specific auditory cortices underlies visual compensations in the deaf.特定听觉皮层的跨模态可塑性为聋人提供了视觉补偿。
Nat Neurosci. 2010 Nov;13(11):1421-7. doi: 10.1038/nn.2653. Epub 2010 Oct 10.
2
Corticocortical connections mediate primary visual cortex responses to auditory stimulation in the blind.皮质间连接介导盲人大脑初级视觉皮层对听觉刺激的反应。
J Neurosci. 2010 Sep 22;30(38):12798-805. doi: 10.1523/JNEUROSCI.2384-10.2010.
3
Neural reorganization following sensory loss: the opportunity of change.
增强早期聋人成年人对视觉生物运动的识别能力:功能和行为相关性。
PLoS One. 2020 Aug 10;15(8):e0236800. doi: 10.1371/journal.pone.0236800. eCollection 2020.
4
Frontal Cortical Modulation of Temporal Visual Cross-Modal Re-organization in Adults with Hearing Loss.听力损失成年人颞叶视觉跨模态重组的额叶皮质调制
Brain Sci. 2020 Jul 30;10(8):498. doi: 10.3390/brainsci10080498.
5
Learning to use vestibular sense for spatial updating is context dependent.学习利用前庭感觉进行空间更新依赖于上下文。
Sci Rep. 2019 Aug 1;9(1):11154. doi: 10.1038/s41598-019-47675-7.
6
Somatosensory Cross-Modal Reorganization in Children With Cochlear Implants.人工耳蜗植入儿童的体感跨模态重组
Front Neurosci. 2019 Jun 26;13:469. doi: 10.3389/fnins.2019.00469. eCollection 2019.
7
Functional reorganization of the conceptual brain system after deafness in early childhood.儿童早期失聪后概念大脑系统的功能重组。
PLoS One. 2018 Jul 5;13(7):e0198894. doi: 10.1371/journal.pone.0198894. eCollection 2018.
8
Abnormal neural activities of directional brain networks in patients with long-term bilateral hearing loss.长期双侧听力损失患者定向脑网络的神经活动异常。
Oncotarget. 2017 Aug 19;8(48):84168-84179. doi: 10.18632/oncotarget.20361. eCollection 2017 Oct 13.
9
Distinct Visual Evoked Potential Morphological Patterns for Apparent Motion Processing in School-Aged Children.学龄儿童视动处理的不同视觉诱发电位形态模式
Front Hum Neurosci. 2016 Jun 28;10:277. doi: 10.3389/fnhum.2016.00277. eCollection 2016.
10
Cross-Modal Functional Reorganization of Visual and Auditory Cortex in Adult Cochlear Implant Users Identified with fNIRS.通过功能近红外光谱技术识别成年人工耳蜗使用者视觉和听觉皮层的跨模态功能重组
Neural Plast. 2016;2016:4382656. doi: 10.1155/2016/4382656. Epub 2015 Dec 27.
感觉丧失后的神经重组:改变的机会。
Nat Rev Neurosci. 2010 Jan;11(1):44-52. doi: 10.1038/nrn2758. Epub 2009 Nov 25.
4
Does visual modularity increase over the course of development?视觉模块化在发育过程中会增加吗?
Optom Vis Sci. 2009 Jun;86(6):E583-8. doi: 10.1097/OPX.0b013e3181a72854.
5
What's to lose and what's to learn: development under auditory deprivation, cochlear implants and limits of cortical plasticity.有何损失,又有何收获:听觉剥夺、人工耳蜗植入与皮质可塑性限制下的发育
Brain Res Rev. 2007 Nov;56(1):259-69. doi: 10.1016/j.brainresrev.2007.07.021. Epub 2007 Sep 20.
6
Neuronal oscillations and multisensory interaction in primary auditory cortex.初级听觉皮层中的神经元振荡与多感觉交互作用
Neuron. 2007 Jan 18;53(2):279-92. doi: 10.1016/j.neuron.2006.12.011.
7
Do deaf individuals see better?聋人看得更清楚吗?
Trends Cogn Sci. 2006 Nov;10(11):512-8. doi: 10.1016/j.tics.2006.09.006. Epub 2006 Oct 2.
8
Multisensory plasticity in congenitally deaf mice: how are cortical areas functionally specified?先天性耳聋小鼠的多感官可塑性:皮质区域如何在功能上被确定?
Neuroscience. 2006;139(4):1507-24. doi: 10.1016/j.neuroscience.2006.01.023. Epub 2006 Mar 9.
9
The plastic human brain cortex.可塑性人类大脑皮层。
Annu Rev Neurosci. 2005;28:377-401. doi: 10.1146/annurev.neuro.27.070203.144216.
10
The case for feedforward multisensory convergence during early cortical processing.早期皮层处理过程中前馈多感觉融合的实例
Neuroreport. 2005 Apr 4;16(5):419-23. doi: 10.1097/00001756-200504040-00001.