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Effective Connectivity & the basics of Dynamic Causal ... · Effective Connectivity & the basics of...
Transcript of Effective Connectivity & the basics of Dynamic Causal ... · Effective Connectivity & the basics of...
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Hanneke den OudenDonders Institute for Brain, Cognition and Behaviour, Nijmegen, the Netherlands
Effective Connectivity & the basics of Dynamic Causal Modelling
SPM courseZurich, February 2011
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Functional specialization Functional integration
Principles of Organisation
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Overview
• Brain connectivity: Types & definitions
• Dynamic causal models (DCMs)
• Practical examples
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Overview
• Brain connectivity: Types & definitions– Anatomical connectivity
– Functional connectivity
– Effective Connectivity
• Dynamic causal models (DCMs)
• Practical examples
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Structural, functional & effective connectivity
• anatomical/structural connectivity= presence of axonal connections
• functional connectivity = statistical dependencies between regional time series
• effective connectivity = causal (directed) influences between neurons or neuronal populations
Sporns 2007, Scholarpedia
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Anatomical connectivity
Definition: presence of axonal connections
• neuronal communication via synaptic contacts
• Measured with
– tracing techniques
– diffusion tensor imaging (DTI)
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Knowing anatomical connectivity is not enough...
• Context-dependent recruiting of connections :– Local functions depend on network activity
• Connections show synaptic plasticity– change in the structure and transmission
properties of a synapse– even at short timescales
Look at functional and effective connectivity
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Definition: statistical dependencies between regional time series
• Seed voxel correlation analysis
• Coherence analysis
• Eigen-decomposition (PCA, SVD)
• Independent component analysis (ICA)
• any technique describing statistical dependencies amongst regional time series
Functional connectivity
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Seed-voxel correlation analyses• hypothesis-driven choice of a seed
voxel • extract reference time series• voxel-wise correlation with time series
from all other voxels
Helmich R C et al. Cereb. Cortex 2009
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Pros & Cons of functional connectivity analysis
• Pros:– useful when we have no experimental control over
the system of interest and no model of what caused the data (e.g. sleep, hallucinations, etc.)
• Cons:– interpretation of resulting patterns is difficult / arbitrary – no mechanistic insight– usually suboptimal for situations where we have a
priori knowledge / experimental control
Effective connectivity
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Effective connectivityDefinition: causal (directed) influences between neurons or
neuronal populations
• In vivo and in vitro stimulation and recording••••• Models of causal interactions among neuronal populations
– explain regional effects in terms of interregional connectivity
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Some models for computing effective connectivity from fMRI data
• Structural Equation Modelling (SEM) McIntosh et al. 1991, 1994; Büchel & Friston 1997; Bullmore et al. 2000
• regression models (e.g. psycho-physiological interactions, PPIs)Friston et al. 1997
• Volterra kernels Friston & Büchel 2000
• Time series models (e.g. MAR, Granger causality)Harrison et al. 2003, Goebel et al. 2003
• Dynamic Causal Modelling (DCM)bilinear: Friston et al. 2003; nonlinear: Stephan et al. 2008
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Psycho-physiological interaction (PPI)
• bilinear model of how the psychological context A changes the influence of area B on area C :
B x A → C• Replace a (main) effect with the timeseries of a voxel showing that
effect• A PPI corresponds to differences in regression slopes for different
contexts.
Friston et al. 1997, NeuroImageBüchel & Friston 1997, Cereb. Cortex
V1 x Att. V5
attention
no attention
V1 activity
V5 a
ctiv
ity
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Pros & Cons of PPIs• Pros:
– given a single source region, we can test for its context-dependent connectivity across the entire brain
– easy to implement
• Cons:– only allows to model contributions from a single area – operates at the level of BOLD time series*– ignores time-series properties of the data
DCM needed for more robust statements of effective connectivity.
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Overview
• Brain connectivity: types & definitions
• Dynamic causal models (DCMs)– Basic idea– Neural level– Hemodynamic level– Preview: priors & inference on parameters and models
• Practical examples
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Basics of Dynamic Causal Modelling
DCM allows us to look at how areas within a network interact:
Investigate functional integration & modulation of specific cortical pathways
– Temporal dependency of activity within and between areas (causality)
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Temporal dependence and causal relations
Seed voxel approach, PPI etc. Dynamic Causal Models
timeseries (neuronal activity)
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Basics of Dynamic Causal Modelling
DCM allows us to look at how areas within a network interact:
Investigate functional integration & modulation of specific cortical pathways
– Temporal dependency of activity within and between areas (causality)
– Separate neuronal activity from observed BOLD responses
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• Cognitive system is modelled at its underlying neuronal level (not directly accessible for fMRI).
• The modelled neuronal dynamics (z) are transformed into area-specific BOLD signals (y) by a hemodynamic model (λ).
λ
z
yThe aim of DCM is to estimate parameters at the neuronal level such that the modelled and measured BOLD signals are maximally* similar.
Basics of DCM: Neuronal and BOLD level
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The neuronal system
State changes of the system states are dependent on:
– the current state z– external inputs u– its connectivity θ
A System is a set of elements zn(t) which interact in a spatially and temporally specific fashion
),,( θuzFdtdz
=
z1 z2 z3
System states zt
Connectivity parameters θ
Inputs ut
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11
dz szdt
= −z1
s
-0.1 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.90
0.2
0.4
0.6
0.8
1
s/2ln=τ
)0(5.0 1z
Decay function
DCM parameters = rate constants
)exp()0()( 11 stztz −=
Integration of a first-order linear differential equation gives anexponential function:
If z1z2 is 0.10 s-1 this means that, per unit time, the increase in activity in z2 corresponds to 10% of the activity in z1z2
10.0
z1
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Linear dynamics: 2 nodes
1;4 21 == as
2;4 21 == as
z2
21a
z1
s
s
z1 sa21t z2
2;8 21 == as
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activity in z2 is coupled to z1 via coefficient a21
u2
u1
z1
z2
111
2
1
212
1
0101
uc
zz
as
zz
+
−
−=
2221212
1111111
zazazuczaz
+=+=
u1
z1
z2
Neurodynamics: 2 nodes with input
21a
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Neurodynamics: 2 nodes with input
activity in z2 is coupled to z1 via coefficient a21
2221212
1111111
zazazuczaz
+=+=
u1
z1
z2
{ }CACuAzz
,=+=
θ
111
2
1
212
1
0101
uc
zz
as
zz
+
−
−=
21a
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u2
u1
z1
z2
Modulatory input u2 activity through coefficient a21
22212221212
1111111
)( zazubazuczaz
++=
+=
u1
u2 z1
z2
Neurodynamics: positive modulation
21a
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22212221212
1111111
)( zazubazuczaz
++=
+=
Neurodynamics: positive modulation
Modulatory input u2 activity through coefficient a21
u1
u2 z1
z2 12
1221
22
1
212
1
0000
101
uc
zz
bu
zz
as
zz
+
+
−
−=
21a
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Bilinear neural state equation in DCM for fMRI
connectivitystate
changesexternalinputs
state vector
direct inputs
+
+
=
∑=
mnmn
m
n
m
j jnn
jn
jn
j
j
nnn
n
n u
u
cc
cc
z
z
bb
bbu
aa
aa
z
z
1
1
1111
11
111
1
1111
modulation ofconnectivity
n regions m direct inputsm mod inputs
{ }CBA
CuzBuAzm
j
jj
,,1
)(
=
+
+= ∑
=
θ
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Neurodynamics: reciprocal connections
reciprocal connectiondisclosed by u2
12
1221
22
1
21
12
2
1
0000
11
uc
zz
bu
zz
aa
szz
+
+
−
−=
u2
u1
z1
z2
u1
u2 z1
z2
21a12a
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• Cognitive system is modelled at its underlying neuronal level (not directly accessible for fMRI).
• The modelled neuronal dynamics (x) are transformed into area-specific BOLD signals (y) by a hemodynamic model (λ).
λ
x
y
Basics of DCM: Neuronal and BOLD level
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0 20 40 60
024
0 20 40 60
024
seconds
Haemodynamics: reciprocal connections
blue: neuronal activityred: bold response
h(u,θ) represents the modelled BOLD response (balloon model) to inputs in this network
BOLD
(without noise)
BOLD
(without noise)
h1
h2
u1
u2 z1
z2
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0 20 40 60
024
0 20 40 60
024
seconds
Haemodynamics: reciprocal connections
BOLD
with
Noise added
BOLD
with
Noise added
y1
y2
u1
u2 z1
z2
euhy += ),( θ
y represents simulated observation of BOLD response, i.e. includes noise
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The hemodynamic “Balloon” model
{ }, , , ,hθ κ γ τ α ρ=
sf
tionflow induc
=
q/vvf,Efqτ /α
dHbchanges in1)( −= ρρ/αvfvτ
volumechanges in1−=
)1( −−−= fγszsry signalvasodilato
κ
( )neuronal input
z t
( ) ,)( signal BOLD
qvty λ=
6 haemodynamic parameters
Friston et al. 2000, NeuroImageStephan et al. 2007, NeuroImage
Region-specific HRFs!
• 3 hemodynamic parameters:
• important for model fitting, but of no interest for statistical inference
• Computed separately for each area → region-specific HRFs!
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endogenous connectivity
direct inputs
modulation ofconnectivity
Neural state equation CuxBuAx jj ++= ∑ )( )(
uxC
xx
uB
xxA
j
j
∂∂
=
∂∂
∂∂
=
∂∂
=
)(
hemodynamicmodelλ
z
y
integration
BOLDyyy
activityz1(t)
activityz2(t) activity
z3(t)
Neuronal states
t
drivinginput u1(t)
modulatoryinput u2(t)
t
Stephan & Friston (2007),Handbook of Brain Connectivity
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Measured vs Modelled BOLD signal
RecapThe aim of DCM is to estimate- neural parameters {A, B, C}- hemodynamic parameters such that the modelled and measured BOLD signals are maximally similar.
y1
y2
u1
u2 z1
z2
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Overview
• Brain connectivity: types & definitions
• Functional connectivity
• Psycho-physiological interactions (PPI)
• Dynamic causal models (DCMs)– Basic idea– Neural level– Hemodynamic level– Preview: priors & inference on parameters and models
• Practical examples
![Page 36: Effective Connectivity & the basics of Dynamic Causal ... · Effective Connectivity & the basics of Dynamic Causal Modelling SPM course. Zurich, February 2011. ... Basics of DCM:](https://reader034.fdocuments.us/reader034/viewer/2022042311/5ed99fdd5139c40fce675565/html5/thumbnails/36.jpg)
Bayesian statistics
)()|()|( θθθ pypyp ∝posterior ∝ likelihood ∙ prior
)|( θyp )(θp
Express our prior knowledge or “belief” about parameters of the model
new data prior knowledge
Parameters governing• Hemodynamics in a single region• Neuronal interactions
Constraints (priors) on• Hemodynamic parameters
- empirical
• Self connections-principled
• Other connections- shrinkage
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Inference about DCM parameters:
Bayesian single subject analysis
• The model parameters are distributions that have a mean ηθ|yand covariance Cθ|y.
– Use of the cumulative normal distribution to test the probability that a certain parameter is above a chosen threshold γ:
γ ηθ|y
Classical frequentist test across Ss
• Test summary statistic: mean ηθ|y
– One-sample t-test: Parameter > 0?
– Paired t-test:parameter 1 > parameter 2?
Bayesian model averaging
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Overview
• Brain connectivity: types & definitions
• Dynamic causal models (DCMs)
• Practical examples– Design of experiments and models– Simulating data
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Planning a DCM-compatible study
• Suitable experimental design:– any design that is suitable for a GLM – preferably multi-factorial (e.g. 2 x 2)
• e.g. one factor that varies the driving (sensory) input• and one factor that varies the contextual input
• Hypothesis and model:– Define specific a priori hypothesis– Which parameters are relevant to test this hypothesis?– If you want to verify that intended model is suitable to test this hypothesis,
then use simulations– Define criteria for inference– What are the alternative models to test?
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Multifactorial design: explaining interactions with DCM
Task factorTask A Task B
Stim
1St
im 2
Stim
ulus
fact
or
A1 B1
A2 B2
z1 z2
Stim2/Task A
Stim1/Task A
Stim 1/Task B
Stim 2/Task B
GLM
z1 z2
Stim2
Stim1
Task A Task B
DCM
Let’s assume that an SPM analysis shows a main effect of stimulus in z1and a stimulus × task interaction in z2.
How do we model this using DCM?
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z1 z2
Stim2
Stim1
Task A Task B
Simulated data
+++++
+++
+
+++
z1
z2
S1 S2 S1 S2 S1 S2 S1 S2
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DCM roadmap
fMRI data
Posterior densities of parameters
Neuronal dynamics Haemodynamics
Model comparison
Bayesian Model inversion
State space Model
Priors
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So, DCM….• enables one to infer hidden neuronal processes from fMRI data
• tries to model the same phenomena as a GLM
– explaining experimentally controlled variance in local responses
– based on connectivity and its modulation
• allows one to test mechanistic hypotheses about observed effects
• is informed by anatomical and physiological principles.
• uses a Bayesian framework to estimate model parameters
• is a generic approach to modeling experimentally perturbed dynamic systems.
– provides an observation model for neuroimaging data, e.g. fMRI, M/EEG
– DCM is not model or modality specific (Models will change and the method extended to other modalities e.g. ERPs)
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Some useful references• The first DCM paper: Dynamic Causal Modelling (2003). Friston et al.
NeuroImage 19:1273-1302.
• Physiological validation of DCM for fMRI: Identifying neural drivers with functional MRI: an electrophysiological validation (2008). David et al. PLoS Biol. 6 2683–2697
• Hemodynamic model: Comparing hemodynamic models with DCM (2007). Stephan et al. NeuroImage 38:387-401
• Nonlinear DCMs:Nonlinear Dynamic Causal Models for FMRI (2008). Stephan et al. NeuroImage 42:649-662
• Two-state model: Dynamic causal modelling for fMRI: A two-state model (2008). Marreiros et al. NeuroImage 39:269-278
• Group Bayesian model comparison: Bayesian model selection for group studies (2009). Stephan et al. NeuroImage 46:1004-10174
• 10 Simple Rules for DCM (2010). Stephan et al. NeuroImage 52.
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Thank you for your attention