This proposal seeks continuation of a multi-disciplinary research effort at F.A..U.~s Center for Complex Systems between neuroscience, psychology and physics that seeks to uncover the basic organizational principles and mechanisms underlying higher brain function. In particular, questions asked are how human beings coordinate their actions with environment, how they perceive and categorize the world around them, and how they learn new skills. The principal hypothesis guiding the research, which embraces theory, computation and experiment, is that brain and behavior are self-organized, governed by coupled dynamical rules on several scales of observation. Such dynamics determine the collective activity of the nervous system, generating the time course of coordination states on a given level of description. Three major experimental sections are proposed to test predicted features of specific dynamical models in the context of the theory of self- organization. In each case, detailed hypotheses are made regarding the neural structures involved and their selective, task-specific engagement over time (to be obtained through a synergism of high density electrode, SquID arrays and fMRI). This information in turn will be used for two purposes: first, to meet the much needed demand for image analysis, compression and visualization that preserves the real-time dynamics of the brain; and, second, to develop theoretical models of global brain function that are based on realistic neuroanatomical and neurophysiological considerations. In addition, a number of new paradigms are proposed aimed at exposing novel dynamical processes that will promote further theoretical developments. Identifying key quantities for collective activity at both brain and behavioral levels and the dynamical rules by which self-organization occurs, should put us in a much better position to understand functional brain disorders. Since the relevant information will be known at the macroscopic level, this knowledge will place constraints on which microscopic processes and variables are relevant and which are not.

Agency
National Institute of Health (NIH)
Institute
National Institute of Mental Health (NIMH)
Type
Method to Extend Research in Time (MERIT) Award (R37)
Project #
5R37MH042900-14
Application #
6186531
Study Section
Special Emphasis Panel (ZMH1-NRB-Q (01))
Program Officer
Glanzman, Dennis L
Project Start
1987-08-01
Project End
2001-04-30
Budget Start
2000-05-01
Budget End
2001-04-30
Support Year
14
Fiscal Year
2000
Total Cost
$377,208
Indirect Cost
Name
Florida Atlantic University
Department
Internal Medicine/Medicine
Type
Schools of Arts and Sciences
DUNS #
004147534
City
Boca Raton
State
FL
Country
United States
Zip Code
33431
Tognoli, Emmanuelle; Kelso, J A Scott (2009) Brain coordination dynamics: true and false faces of phase synchrony and metastability. Prog Neurobiol 87:31-40
Kelso, J A Scott; de Guzman, Gonzalo C; Reveley, Colin et al. (2009) Virtual Partner Interaction (VPI): exploring novel behaviors via coordination dynamics. PLoS One 4:e5749
Fink, Philip W; Kelso, J A Scott; Jirsa, Viktor K (2009) Perturbation-induced false starts as a test of the jirsa-kelso excitator model. J Mot Behav 41:147-57
Jantzen, Kelly J; Steinberg, Fred L; Kelso, J A Scott (2009) Coordination dynamics of large-scale neural circuitry underlying rhythmic sensorimotor behavior. J Cogn Neurosci 21:2420-33
Raczaszek-Leonardi, Joanna; Shapiro, Lewis P; Tuller, Betty et al. (2008) Activating basic category exemplars in sentence contexts: a dynamical account. J Psycholinguist Res 37:87-113
Vertes, Robert P; Hoover, Walter B (2008) Projections of the paraventricular and paratenial nuclei of the dorsal midline thalamus in the rat. J Comp Neurol 508:212-37
Tognoli, Emmanuelle; Lagarde, Julien; DeGuzman, Gonzalo C et al. (2007) The phi complex as a neuromarker of human social coordination. Proc Natl Acad Sci U S A 104:8190-5
Ledberg, Anders; Bressler, Steven L; Ding, Mingzhou et al. (2007) Large-scale visuomotor integration in the cerebral cortex. Cereb Cortex 17:44-62
Lagarde, J; Kelso, J A S (2006) Binding of movement, sound and touch: multimodal coordination dynamics. Exp Brain Res 173:673-88
Knuth, Kevin H; Shah, Ankoor S; Truccolo, Wilson A et al. (2006) Differentially variable component analysis: Identifying multiple evoked components using trial-to-trial variability. J Neurophysiol 95:3257-76

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