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Title: | 利用神經雪崩模式探討前扣帶腦迴皮質神經網路之動態變化 Evaluation of the neuronal network dynamics in anterior cingulate cortex using neuronal avalanche model |
Authors: | Jose Jiun-Shian Wu 吳俊賢 |
Advisor: | 嚴震東(Chen-Tung Yen) |
Co-Advisor: | 徐百川(Bai-Chuang Shyu) |
Keyword: | 神經網路活性,神經雪崩模式,癲癇,痛覺傳遞,前扣帶腦迴皮質, Network dynamics,neuronal avalanche,seizure,nociception,ACC, |
Publication Year : | 2014 |
Degree: | 博士 |
Abstract: | 大腦皮質的神經細胞藉由獨特的網路動態活性來進行各種訊息的處理,而神經活性在不同的時空分布下能進行高階的生理功能。近年來有許多的研究專注於探討神經網路運作時所必須具備的特性。已有研究指出負向局部場電位中存在著無尺度以及特定活性事件大小的分布模型(例如:神經雪崩模式),這種神經雪崩模式已在離體神經網路記錄、活體動物實驗記錄(小鼠、大鼠及貓)和人體腦電位記錄中被證實其存在性。不過神經雪崩模式對於大腦皮質的研究仍需要更深入的探討,尤其是對於生理以及病理反應時的分佈變化。本研究中我們假設神經雪崩模式可作為神經網路活性的量測指標。為了證實我們的假設,我們的首要目標是建立起在離體以及活體的神經雪崩模式分析。我們利用了多電極陣列記錄了位於前腦回扣帶皮質以及主要體感覺皮質區這兩個區域的負向局部場電位記錄,並且證實了神經雪崩模式可在我們的紀錄方法中被重現出來。第二部分的實驗我們想了解在不同程度的麻醉下,周邊痛覺刺激對於大腦皮質活性的影響,我們發現了藉由周邊給予痛覺的刺激,在較輕程度的麻醉情形下將會使得神經雪崩模式的分佈斜率改變。在本研究的第三部分中,我們希望在藥物引起的癲癇反應上以及來自丘腦投射所帶給前腦迴扣帶皮質的影響中,比較傳統腦電圖和神經雪崩模式的分析方法,我們發現神經雪崩模式的斜率能和神經網路的興奮性有著顯著的相關。本研究指出神經雪崩模式可作為量測大腦皮質神經網路活性變化的重要指標。 Cortical neurons display unique spatiotemporal patterns in signals processing to perform functions. Recent studies focus on the characteristics of the sufficient conditions in neuronal networks. The nLFPs exhibit a scale-free event size distribution, the neuronal avalanche, which has been proven in the cortex across species, including mice, rats, and humans, and may be used as an index of cortical excitability. However, it needs more investigation on the correlation between the neuronal avalanche and the cortical excitabilities. In this study, we hypothesize the neuronal avalanche could be taken as the index of the neuronal network excitability. The first aim of this study is to set up the analysis method of in vitro and in vivo recording. We measured nLFPs from multi-electrode recordings and approved the nLFPs in ACC and the S1 exhibit the distribution of the neuronal avalanche. The second aim of this study is focus on the nociceptive response in different level of the anesthesia, and we found in light anesthesia, the slope of the avalanche, α value, in ACC would be modulated by peripheral nociception. In the third part of this study, we try to evaluate the impact of the network excitability by the medial thalamic manipulation on ACC by traditional EEG analysis and the slope of the neuronal avalanche. We found that the α value could reflect network excitability and the thalamic manipulation. Final we conclude that the neuronal avalanche could be a tool for analyzing cortical network activity in physiological and pathological conditions through nLFPs to determine alterations in network dynamics. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/58634 |
Fulltext Rights: | 有償授權 |
Appears in Collections: | 生命科學系 |
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ntu-103-1.pdf Restricted Access | 5.13 MB | Adobe PDF |
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