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Neuroimaging Clinics of North America, 2022
A central tenet of modern neuroscience is the conceptualization of the brain as a collection of complex networks or circuits with a shift away from traditional "localizationist" theories. Connectomics seeks to unravel these brain networks and their role in the pathophysiology of neurologic diseases.
Erik H, Middlebrooks, Sanjeet S, Grewal
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A central tenet of modern neuroscience is the conceptualization of the brain as a collection of complex networks or circuits with a shift away from traditional "localizationist" theories. Connectomics seeks to unravel these brain networks and their role in the pathophysiology of neurologic diseases.
Erik H, Middlebrooks, Sanjeet S, Grewal
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Mapping Multi-Modal Brain Connectome for Brain Disorder Diagnosis via Cross-Modal Mutual Learning
IEEE Transactions on Medical Imaging, 2023Recently, the study of multi-modal brain connectome has recorded a tremendous increase and facilitated the diagnosis of brain disorders. In this paradigm, functional and structural networks, e.g., functional and structural connectivity derived from fMRI ...
Yanwu Yang +5 more
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Functional neurology, 2013
One of the most fascinating challenges in neuroscience is the reconstruction of the connectivity map of the brain. Recent years have seen a rapid expansion in the field of connectomics, whose aim is to trace this map and understand its relationship with neural computation.
SILVESTRI, LUDOVICO +2 more
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One of the most fascinating challenges in neuroscience is the reconstruction of the connectivity map of the brain. Recent years have seen a rapid expansion in the field of connectomics, whose aim is to trace this map and understand its relationship with neural computation.
SILVESTRI, LUDOVICO +2 more
openaire +4 more sources
Current Opinion in Psychiatry, 2015
The neural connections, interconnections and organized networks of the central nervous system (CNS), which represent the human connectome, are critical for intact brain function. Consequently, disturbances at any level or juncture of these networks may alter behaviour and/or lead to brain dysfunction.
Katherine L. Narr, Amber M. Leaver
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The neural connections, interconnections and organized networks of the central nervous system (CNS), which represent the human connectome, are critical for intact brain function. Consequently, disturbances at any level or juncture of these networks may alter behaviour and/or lead to brain dysfunction.
Katherine L. Narr, Amber M. Leaver
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Scale matters: The nested human connectome
Science, 2022A comprehensive description of how neurons and entire brain regions are interconnected is fundamental for a mechanistic understanding of brain function and dysfunction.
M. Axer, K. Amunts
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Mapping Symptoms to Brain Networks with the Human Connectome.
New England Journal of Medicine, 2018The Brain Connectome and New Methods of Lesion Analysis Complex neurologic and psychiatric syndromes cannot be understood on the basis of focal brain lesions.
M. Fox
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e-Neuroforum, 2016
Abstract When trying to gain intuitions about the computations implemented in neural circuits, we often use comparisons with electronic circuits. However, one fundamental difference to hard-wired electronic circuits is that the structure of neural circuits undergoes constant remodeling.
Jochen Triesch +2 more
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Abstract When trying to gain intuitions about the computations implemented in neural circuits, we often use comparisons with electronic circuits. However, one fundamental difference to hard-wired electronic circuits is that the structure of neural circuits undergoes constant remodeling.
Jochen Triesch +2 more
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Connectomics of neurodegeneration
Nature Neuroscience, 2019Misfolded protein aggregates are a classical hallmark of many neurodegenerative diseases. By combining a mouse model of misfolded protein injection and a brain network model of misfolded protein diffusion, a study now finds a strong link between the stereotypical spreading patterns of neurodegeneration, protein expression and anatomical connectivity.
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