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Weakly Coupled Oscillators

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Presentation on theme: "Weakly Coupled Oscillators"— Presentation transcript:

1 Weakly Coupled Oscillators
Will Penny Wellcome Trust Centre for Neuroimaging, University College London, UK IMN Workshop on Interacting with Brain Oscillations, 33 Queen Square, London. Friday 12th March 2010

2 For studying synchronization among brain regions
Relate change of phase in one region to phase in others Region 1 Region 3 Region 2 ?

3 Connection to Neurobiology: Septo-Hippocampal theta rhythm
Denham et al. Hippocampus. 2000: Hippocampus Septum Wilson-Cowan style model

4

5 Four-dimensional state space

6 Hopf Bifurcation Hippocampus Septum A B A B

7 For a generic Hopf bifurcation (Ermentrout & Kopell, SIAM Appl Math, 1990)
See Brown et al. Neural Computation, 2004 for PRCs corresponding to other bifurcations

8 DCM for Phase Coupling – SPM8

9 MEG Example Fuentemilla et al, Current Biology, 2009
1) No retention (control condition): Discrimination task + 2) Retention I (Easy condition): Non-configural task + 3) Retention II (Hard condition): Configural task + 1 sec 3 sec 5 sec 5 sec ENCODING MAINTENANCE PROBE

10 Delay activity (4-8Hz) Friston et al. Multiple Sparse Priors. Neuroimage, 2008

11 Difference in theta power between conditions

12 Questions Duzel et al. find different patterns of theta-coupling in the delay period dependent on task. Pick 3 regions based on [previous source reconstruction] 1. Right MTL [27,-18,-27] mm 2. Right VIS [10,-100,0] mm 3. Right IFG [39,28,-12] mm Fit models to control data (10 trials) and hard data (10 trials). Each trial comprises first 1sec of delay period. Find out if structure of network dynamics is Master-Slave (MS) or (Partial/Total) Mutual Entrainment (ME) Which connections are modulated by (hard) memory task ?

13 Data Preprocessing Source reconstruct activity in areas of interest (with fewer sources than sensors and known location, then pinv will do; Baillet et al, IEEE SP, 2001) Bandpass data into frequency range of interest Hilbert transform data to obtain instantaneous phase Use multiple trials per experimental condition

14 MTL Master VIS Master IFG Master 1 IFG VIS 3 IFG VIS 5 IFG VIS Master- Slave MTL MTL MTL 2 6 IFG VIS IFG VIS 4 IFG VIS Partial Mutual Entrainment MTL MTL MTL 7 IFG VIS Total Mutual Entrainment MTL

15 Bayesian Model Comparison
LogEv Model Penny et al, Comparing Dynamic Causal Models, Neuroimage, 2004

16 Estimated parameter values:
MTL VIS IFG 2.89 2.46 0.89 0.77

17 Control fIFG-fVIS fMTL-fVIS

18 Memory fIFG-fVIS fMTL-fVIS

19 In agreement with spike-LFP recordings by Jones & Wilson, PLoS Biol 2005

20

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