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2026 臺灣認知神經科學學會年會暨學術研討會
公告 Announcement
公告 Announcement
⭐本次徵稿截止日延長至2025/11/14(五)!
Abstract submission deadline extended to Friday, November 14, 2025!
徵稿公告(Call for Papers):中文版 English ver.
⭐本次徵稿截止日延長至2025/11/14(五)!
Abstract submission deadline extended to Friday, November 14, 2025!
徵稿公告(Call for Papers):中文版 English ver.
⭐7T fMRI 工作坊報名時間延長至2025/11/21(五)!
7T fMRI workshop registration deadline extended to Friday, November 21, 2025!
報名與註冊 Registration and Submission
年會專題講座 Keynote Address
時間 Date: 2026/01/24(Sat) 09:00 - 09:50,10:00 - 10:50
地點 Venue: 國立陽明交通大學(陽明校區)活動中心第三會議室
3rd Meeting Room, Auditorium and Activity Center, National Yang Ming Chiao Tung University (Yang Ming Campus)
Nouchine Hadjikhani
Associate Professor of Radiology
Harvard Medical School
Look me in the eyes - or not?
The Excitatory/Inhibitory imbalance hypothesis in autism - evidence from neuroimaging
Look me in the eyes - or not?
The Excitatory/Inhibitory imbalance hypothesis in autism - evidence from neuroimaging
Eye contact is oftent described as stressful or aversive by autistic individuals. In this talk, I will discuss the neural mechanisms underlying gaze and face perception in autism, highlighting evidence that points to an imbalance between excitation and inhibition in key brain networks. I will further show how restoring this balance may lead to more typical gaze patterns and improved social understanding. Together, these findings shed light on the neurobiological basis of social perception and suggest promising directions for intervention.
Nathaniel Daw
Huo Professor in Computational and Theoretical Neuroscience
Princeton University
Thinking the Right Thoughts
Thinking the Right Thoughts
The brain must often make decisions in tasks -- like mazes, social situations, or investment -- where candidate actions are separated from their consequences by many steps of space and time. A central computational problem in decision making is spanning these gaps to work out the long-term consequences of candidate actions. I review recent experimental and theoretical work aimed at understanding the mechanisms by which the brain solves this problem. Our understanding of this parallels the development of approaches to this problem in artificial intelligence: following early enthusiasm about planning by exhaustive search, both computer scientists and neuroscientists have come to understand the importance of judiciously pretraining and adapting one's computations to future needs. This offers a nerw perspective on a range of issues such as habits and automaticity in the healthy brain, but also suggests candidate mechanisms that may underlie dysfunctions such as compulsion, rumination, and avoidance.
7T fMRI工作坊講座資訊
Workshop on 7T fMRI
時間 Date: 2026/01/23(Fri) 13:30 - 16:30
地點 Venue: 國立陽明交通大學(陽明校區)活動中心第一會議室
1st Meeting Room, Auditorium and Activity Center, National Yang Ming Chiao Tung University (Yang Ming Campus)
Jonathan Polimeni
Associate Professor of Radiology
Stanford University
What is the ultimate spatiotemporal resolution of human functional MRI? Insights into how brain vasculature influences hemodynamics
What is the ultimate spatiotemporal resolution of human functional MRI? Insights into how brain vasculature influences hemodynamics
All fMRI techniques in use today measure brain function only indirectly, by tracking the changes in blood flow, volume and oxygenation that accompany neuronal activity, and this has often been viewed as the fundamental limitation of the technique. However, recent evidence from invasive in-vivo microscopy studies has shown that the brain's smallest blood vessels respond far more precisely, in space and in time, to neuronal activity than previously believed. This insight suggests that the “biological resolution” of fMRI is intrinsically high, and, with sufficiently high imaging resolution, it should be possible to extract more meaningful neuronally specific information from fMRI—if we can understand how brain vascular anatomy and physiology shape the hemodynamics that generate the fMRI signals.
In this presentation, I will describe ongoing efforts to improve the neuronal specificity of fMRI and pose the question: How far can we go with fMRI? The limits of fMRI spatial and temporal resolution are actively being investigated using advanced imaging technologies. While high-resolution human fMRI studies are increasingly operating at the boundaries of what is achievable, a key challenge is that the vascular architecture of the brain reflects its structure and function across spatial scales. Both classic and modern vascular anatomy studies have shown how the macro-vascular geometry is coupled with the tissue geometry, including the gray matter folds and the white matter tracts, while the micro-vascular density closely follows borders of subcortical nuclei, cortical areas and cortical layers. I will present evidence that both the large- and small-scale vascular anatomy strongly influence patterns of fMRI activation and describe strategies for how to account for this.
As examples of the intrinsically high biological resolution of fMRI, I will present results showing cortical columnar and laminar imaging, and new directions in the emerging field of ”fast fMRI” that show how the BOLD response can track surprisingly fast neural dynamics. Lastly, I will share our recent progress towards building bottom-up biophysical models of the fMRI signals based on realistic vascular anatomy and dynamics that provide insights into the interrelationship between hemodynamics and neural activity. Overall, many lessons can be learned through a deeper understanding of brain vascular anatomy and physiology, which can both shed light on the brain's functional organization and help neuroscientists more accurately interpret the fMRI signals in terms of the underlying neural activity.
Fa-Hsuan Lin
Professor
University of Toronto
Relating layer-specific fMRI signals to acoustics and intracranial neuronal activity in the human auditory cortex in a naturalistic design
Relating layer-specific fMRI signals to acoustics and intracranial neuronal activity in the human auditory cortex in a naturalistic design
7T fMRI enables the resolution of brain activity across cortical depths to understand feedforward and feedback dynamics. The relationship between these hemodynamic signals and neural activity is less well explored. In this talk, we present results correlating 7T fMRI in healthy individuals with invasive electrophysiological recordings from epilepsy patients to examine layer-dependent coupling between neuronal activity and fMRI during passive music listening. Specifically, Layer-specific fMRI responses were modeled using neuronal oscillation envelopes elicited by the same naturalistic stimuli. From deep toward superficial layers, the relationship between oscillatory power and fMRI responses systematically changed: alpha/beta activity (8-30 Hz) was increasingly associated with negative fMRI responses, while gamma band (>30 Hz) oscillations showed increasingly positive associations. The envelope of broadband high-frequency activity (>70 Hz) showed the strongest link with fMRI signals in the intermediate layers. This "feedforward type" dominance of intermediate layers was also clearly present in the fMRI analysis using the acoustical envelope itself. Our findings reveal a spectrolaminar organization of neurovascular coupling in the human auditory cortex.
國內外關心認知神經科學的朋友們,
臺灣認知神經科學學會訂於2026年1月23-24日於國立陽明交通大學(陽明校區)舉辦年會暨學術研討會。自2014年來,本會致力於推廣認知神經科學研究及跨領域交流。在過去年會成功的基礎下,今年我們有幸邀請到多位國際知名學者前來分享他們的研究成果,並期待您的參與。本會自即日起至2025年10月31日止,公開徵求口頭報告及海報論文與小型專題研討會摘要投稿。舉凡與認知神經科學領域相關的研究摘要皆歡迎投稿。
今年的會議,會在1月23日先以優秀學生論文競賽開場。讓我們一起參加,替參與的學生們加油打氣,為他們的努力喝采!論文競賽後,我們特別規劃了7-Tesla fMRI工作坊,請到Jonathan Polimeni (Stanford University) 和林發暄教授 (University of Toronto) 介紹7T fMRI研究的最新進展。無論您是3T fMRI 的研究者想要跨進7T的世界,或想了解fMRI的最新技術,這都是個難得的機會。名額有限(2025年10月31日截止)。
在1月24日年會暨學術研討會當天,我們將有兩場Keynote演講,講者分別為 Nochine Hadjikhani (Mass General Hospital) 和 Nathaniel Daw (Princeton University) 兩位教授。Hadjikhani 教授研究偏頭痛和自閉症,利用不同的行為方法和多模態腦造影技術,探討偏頭痛的疼痛歷程與自閉症的情緒感知。Daw 教授研究人類和動物如何從嘗試與錯誤中學習,並進行決策,並從計算建模、神經和行為的角度研究這些研究議題。在Keynote結束後,後續將有壁報報告、學術研討會和口頭報告的活動。
感謝您對本會的支持,無論舊雨新知,均誠摯邀請您能前來參與,並期待今年的相會!
重要日期:
10月31日:摘要投稿截止日
10月31日:7T fMRI 工作坊報名截止日
1月9日:年會註冊截止日
年會暨學術研討會 Annual Meeting and Conference
年會暨學術研討會 Annual Meeting and Conference
報名時間 Registration Deadline:
投稿時間:即日起至2025/11/14(五) 23:59
For Submission: from now on until 2025/11/14(Fri.)23:59出席報名截止:2026/01/09(五)23:59
For Attendence: from now on until 2026/01/09(Fri.)23:59
活動時間 Date:
2026/01/24(六)Sat.
08:30~08:45 報到 Registration,08:45 會議開始 Conference begins
地點 Venue:
國立陽明交通大學(陽明校區) 活動中心第三會議室。
3rd Meeting Room, Auditorium and Activity Center,
National Yang Ming Chiao Tung University (Yang Ming Campus)
優秀學生論文競賽決選 Student Paper Competition
優秀學生論文競賽決選 Student Paper Competition
時間 Date:
2026/01/23(五)Fri.
10:00-10:30 報到 Registration,10:30 競賽開始 Competition begins
地點 Venue:
國立陽明交通大學(陽明校區)活動中心第一會議室
1st Meeting Room, Auditorium and Activity Center,
National Yang Ming Chiao Tung University (Yang Ming Campus)
報名時間 Registration Deadline:
即日起至2025/11/21(五)23:59
From now on until 2025/11/21(Fri.)F23:59
活動時間 Date:
2026/01/23(五)Fri.
13:00-13:30 報到 Registration,13:30 活動開始 Begins
地點 Venue:
國立陽明交通大學(陽明校區)活動中心第一會議室
1st Meeting Room, Auditorium and Activity Center,
National Yang Ming Chiao Tung University (Yang Ming Campus)
講者 Speaker:
Prof. Jonathan Polimeni (U. Stanford)
Prof. Fa-Hsuan Lin (University of Toronto)
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