Neurite architecture of the planum temporale predicts neurophysiological processing of auditory speech

Sebastian Ocklenburg; Patrick Friedrich; Christoph Fraenz; Caroline Schlüter; Christian Beste; Onur Güntürkün; Erhan Gen?

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Neurite architecture of the planum temporale predicts neurophysiological processing of auditory speech

机译：颞平面的神经突结构预测听觉语音的神经生理过程

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The left hemispheric advantage in speech perception is reflected in faster neurophysiological processing. On the basis of postmortem data, it has been suggested that asymmetries in the organization of the intrinsic microcircuitry of the posterior temporal lobe may produce this leftward timing advantage. However, whether this hypothetical structure-function relationship exists in vivo has never been empirically validated. To test this assumption, we used in vivo neurite orientation dispersion and density imaging to quantify microcircuitry in terms of axon and dendrite complexity of the left and right planum temporale in 98 individuals. We found that a higher density of dendrites and axons in the temporal speech area is associated with faster neurophysiological processing of auditory speech, as reflected by electroencephalography. Our results imply that a higher density and higher number of synaptic contacts in the left posterior temporal lobe increase temporal precision and decrease latency of neurophysiological processes in this brain region.

机译：语音感知中的左半球优势体现在更快的神经生理处理中。根据验尸数据，已经提出，后颞叶固有微电路组织的不对称可能会产生这种向左计时的优势。但是，这种假设的结构-功能关系在体内是否存在尚未得到经验证实。为了验证这一假设，我们使用了体内神经突取向分散和密度成像技术，对98位个体的左右平面颞叶的轴突和树突复杂性进行了量化。我们发现，脑电图反映，颞语音区域中较高的树突和轴突密度与听觉语音的更快的神经生理处理有关。我们的结果表明，左后颞叶的更高密度和更高数量的突触接触增加了该大脑区域的时间精度并减少了神经生理过程的潜伏期。

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《Science Advances》 |2018年第7期|共页
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Sebastian Ocklenburg; Patrick Friedrich; Christoph Fraenz; Caroline Schlüter; Christian Beste; Onur Güntürkün; Erhan Gen?;
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1. Interhemispheric transcallosal connectivity between the left and right planum temporale predicts musicianship, performance in temporal speech processing, and functional specialization [J] . Elmer Stefan, Haenggi Juergen, Jaencke Lutz Brain structure & function . 2016,第1期

机译：左右平面颞叶之间的半球跨call连通性可预测音乐家，颞语音处理中的表现以及功能专长
2. Compensatory task-specific hypersensitivity in bilateral planum temporale and right superior temporal gyrus during auditory rhythm and omission processing in Parkinson’s disease [J] . Kjetil Vikene, Geir Olve Skeie, Karsten Specht Scientific reports. . 2019,第1期

机译：在听觉节律期间双边Pallum休闲和右优秀颞克鲁斯的补偿任务特异性超敏反应和帕金森病的遗漏处理
3. Auditory Spatial and Object Processing in the Human Planum Temporale: No Evidence for Selectivity [J] . Kevin R. Smith, I-Hui Hsieh, Kourosh Saberi, Journal of Cognitive Neuroscience . 2010,第4期

机译：人类平面临时的听觉空间和对象处理：没有选择性的证据。
4. Modelling Speech Processing and Recognition in the auditory System with a Three-Stage Architecture [C] . T.Wesarg, B.Brueckner, C.Schauer 1996 International Conference on Artificial Neural Networks - ICANN 96 Bochum, Germany, July 16-19, 1996 . 1996

机译：使用三阶段体系结构对听觉系统中的语音处理和识别建模
5. Planum temporale asymmetry and ear advantage in dichotic listening. [D] . Foster, Lori Ann Miller. 1998

机译：平面颞不对称和双耳听力的耳朵优势。
6. Neurite architecture of the planum temporale predicts neurophysiological processing of auditory speech [O] . Sebastian Ocklenburg, Patrick Friedrich, Christoph Fraenz, 2018

机译：颞平面的神经突结构预测听觉语音的神经生理过程
7. Compensatory task-specific hypersensitivity in bilateral planum temporale and right superior temporal gyrus during auditory rhythm and omission processing in Parkinson’s disease [O] . Kjetil Vikene, Geir Olve Skeie, Karsten Specht 2019

机译：在听觉节律期间双边Pallum休闲和右优秀颞克鲁斯的补偿任务特异性超敏反应和帕金森病的遗漏处理

Neurite architecture of the planum temporale predicts neurophysiological processing of auditory speech

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