請用此 Handle URI 來引用此文件:
http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/7349
標題: | 大鼠桶狀皮質區不同皮層間的側調節 Surround Modulation in Different Cortical Layers of Rat Barrel Field Cortex |
作者: | Chin-Yi Ji 紀欽益 |
指導教授: | 葉俊毅(Chun-I Yeh) |
關鍵字: | 大鼠,桶狀皮質區,側調節,方向調性,線性─非線性模型,腦皮層, rat,barrel field cortex,surround modulation,direction selectivity,LN model,cortical layer, |
出版年 : | 2019 |
學位: | 碩士 |
摘要: | 大鼠桶狀皮質離散的表徵特性,使其成為研究感覺訊息處理及其大腦迴路的重要動物模型。桶狀皮質中的神經會對於一根鬍鬚的刺激有最強的反應,這根鬍鬚就稱為此神經的主要鬍鬚(principle whisker, PW),然而其反應也會受到其他周圍鬍鬚(surround whiskers, SWs)的調節(抑制或促進)。過去對於此周圍調節作用(surround modulation)的研究主要著重在主要鬍鬚和單根周圍鬍鬚,這與大鼠探索環境時同時使用多根鬍鬚的運動有所不同。本研究使用三種不同的多根鬍鬚刺激型態去探索周圍調節作用,分別是隨機單根刺激、多鬍鬚同方向刺激,以及多鬍鬚隨機方向刺激。我們試著去回答下列問題:第一、在不同刺激形態下,周圍鬍鬚調節效果如何影響神經反應強度與方向調性。第二、神經反應強度與方向調性是否在不同皮層間有所區別。第三、線性─非線性模型能夠解釋桶狀皮質神經反應的程度。我們發現在記錄到的神經中有近一半的神經有明顯調節效果。多根鬍鬚刺激相較於隨機單根刺激有較低的神經反應以及較強的方向調性(direction selectivity)。我們也發現有顯著側抑制的神經數量為顯著側促進的效果的三倍,顯示側抑制主導桶狀皮質區。在兩種多根鬍鬚刺激中,只有在桶狀皮質的粒上皮層(表層)發現所謂的「情境效果」- 多鬍鬚同方向刺激中神經放電頻率顯著的低於多鬍鬚隨機方向刺激,這個現象可能肇因於同層神經的側向連結。相反的,在前饋輸入主導的顆粒層和粒下皮層都沒有發現情境效果。此外,相較於多根鬍鬚刺激下的桶狀皮質區神經反應,線性─非線性模型在隨機單根刺激下有較好的模擬和描述。總體來說,我們的結果顯示在大鼠桶狀皮質區側抑制是主要的反應偏好,特別是對於桶狀皮質區粒上皮層(訊號輸出)的神經元,其功能主要在整合來自顆粒層(序號輸入)的神經訊號。相反的,顆粒層的神經受到周圍刺激的影響較小(受視丘訊號主導),其功能主要在偵測外在刺激特徵(方向調性,Brecht, 2007). The discrete architecture modules of the rat barrel cortex are an important animal model in studying cortical coding of sensory information and its circuitry. Neurons within the same barrel tend to respond mainly to the deflection of a single whisker (called ‘principal whisker’, PW). However, their responses also modulated when surrounding whiskers (SWs) are deflected alone with the PW. When studying the surround modulation effect, most previous studies deflect only the PW and a single SW, a scheme differs significantly from the synchronous movement of multi-whiskers when rats are exploring the environment. In this study, we aimed on the effect of surround modulation by deflecting multi-whiskers simultaneously with different stimulus patterns: a single whisker (single condition), multi-whiskers (n = 5, chosen randomly) moving in the same direction (correlated condition), multi-whiskers (n = 5, chosen randomly) moving in different directions (uncorrelated condition). We tried to address three questions. First, how firing rate and directional tuning were affected by surround modulation in different stimulus patterns (the contextual effect). Second, were the effect of surround modulation different across different cortical layers. Third, in what degree the response in barrel cortex could be characterized by the linear-nonlinear model. Half of the recorded neurons showed significant surround modulation effect. Comparing to the single-whisker condition, neurons in the multi-whisker conditions tended to have lower firing rates and higher directional selectivity indices. Neurons with significant surround suppression were three times as many as those with significant surround facilitation, indicating that surround suppression was dominant in barrel field cortex. The contextual effect in multi-whisker conditions was found only in the supragranular layer – the reduction in firing rate was larger in the correlated condition than in the uncorrelated condition, maybe due to abandon lateral connections among neurons with similar properties. In contrast, the contextual effect was not evident in other two layers. Moreover, cortical responses in barrel field under multi-whisker conditions were less characterized by the LN model than those under single whisker condition. Overall, these results indicated that surround suppression was dominant especially for neurons in the supragranular layer of the barrel field cortex, which might serve an important role in integrating inputs from the granular layer. In contrast, neurons in the granular layer were less affected by surround stimulation and might serve as critical feature detectors (Brecht, 2007). |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/7349 |
DOI: | 10.6342/NTU201900913 |
全文授權: | 同意授權(全球公開) |
顯示於系所單位: | 心理學系 |
文件中的檔案:
檔案 | 大小 | 格式 | |
---|---|---|---|
ntu-108-1.pdf | 3.43 MB | Adobe PDF | 檢視/開啟 |
系統中的文件,除了特別指名其著作權條款之外,均受到著作權保護,並且保留所有的權利。