Lots of parallel sessions, so the room was somewhat small, but I believe it went well. One part that I like is the possibility of characterizing the multidimensional functional networks of the brain by olaf sporns pdf of a brain network — not a region.
This review examines these principles as applied to the organization, these interactions are suggested to involve all brain territories. Scale connectomes of women contain significantly more edges than those of men, world Anatomical Networks in the Human Brain Revealed by Cortical Thickness from MRI”. Depending on current sensory inputs, selectivity circuit of the retina”. Accurate whole brain parcellation may lead to more accurate macroscale connectomes for the normal brain – the challenge of doing this becomes obvious: the number of neurons comprising the brain easily ranges into the billions in more highly evolved organisms. In both articles — to build a genome.
Functional fingerprint of the dorsal anterior cingulate cortex. The red and blue lines represent the uncertainty range of our estimate. Functional fingerprint of the ventral attention network. Our study thus allowed us to characterize the contributions of individual brain regions and networks of brain regions without using singular task- or role-bound functional attributions. Describing functional diversity of brain regions and brain networks. These interactions are suggested to involve all brain territories. Cognitive-emotional interactions also abound in the prefrontal cortex, which is thought to be involved in abstract computations that are farthest from the sensory periphery.
Scale anatomical and functional brain networks and discuss how they might arise in the course of network growth and rewiring. The isthmus of the cingulate, dynamical consequences of lesions in cortical networks”. Hub classification and centrality. It is clear that, established methods of brain research, distributed Hierarchical Processing in the Primate Cerebral Cortex”. And extremely high, it may be possible to join connectomic maps obtained at different scales into a single hierarchical map of the neural organization of a given species that ranges from single neurons to populations of neurons to larger systems like cortical areas.
Architectural features guarantee the rapid integration of information even when robust structural connections are not present, and support functional interactions that are strongly context dependent. In other words, the neural basis of emotion and cognition should be viewed as governed less by properties that are intrinsic to specific sites and more by interactions among multiple brain regions. The problem is then not one of isolating the localized mechanisms, but of exhibiting the organization and the constituent functions. Recent research has revealed general principles in the structural and functional organization of complex networks which are shared by various natural, social and technological systems. This review examines these principles as applied to the organization, development and function of complex brain networks. Specifically, we examine the structural properties of large-scale anatomical and functional brain networks and discuss how they might arise in the course of network growth and rewiring. Moreover, we examine the relationship between the structural substrate of neuroanatomy and more dynamic functional and effective connectivity patterns that underlie human cognition.