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Dynamic causal modelling revisited
Dynamic causal modelling revisited
by Zeidman, Peter , Heinzle, Jakob , Cagnan, Hayriye , Razi, Adeel , Mathys, Chris , Preller, Katrin H. , Friston, K.J.
in Adult / Attention / Bayesian / Bayesian analysis / Blood / Brain - diagnostic imaging / Brain - physiology / Cortex / Dynamic causal modelling / Effective connectivity / Electroencephalography / Functional magnetic resonance imaging / Functional Neuroimaging - methods / Haemodynamic models / Hemodynamics / Hemodynamics - physiology / Humans / Interneurons / Magnetic Resonance Imaging / Mathematical models / Models, Biological / Motion detection / Motion Perception - physiology / Nerve Net - diagnostic imaging / Nerve Net - physiology / Neural mass models / Neurovascular Coupling - physiology / Population / Pyramidal cells / Sensory neurons / Time series / Visual perception
2019
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Dynamic causal modelling revisited
by Zeidman, Peter , Heinzle, Jakob , Cagnan, Hayriye , Razi, Adeel , Mathys, Chris , Preller, Katrin H. , Friston, K.J.
in Adult / Attention / Bayesian / Bayesian analysis / Blood / Brain - diagnostic imaging / Brain - physiology / Cortex / Dynamic causal modelling / Effective connectivity / Electroencephalography / Functional magnetic resonance imaging / Functional Neuroimaging - methods / Haemodynamic models / Hemodynamics / Hemodynamics - physiology / Humans / Interneurons / Magnetic Resonance Imaging / Mathematical models / Models, Biological / Motion detection / Motion Perception - physiology / Nerve Net - diagnostic imaging / Nerve Net - physiology / Neural mass models / Neurovascular Coupling - physiology / Population / Pyramidal cells / Sensory neurons / Time series / Visual perception
2019
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Dynamic causal modelling revisited
Dynamic causal modelling revisited
by Zeidman, Peter , Heinzle, Jakob , Cagnan, Hayriye , Razi, Adeel , Mathys, Chris , Preller, Katrin H. , Friston, K.J.
in Adult / Attention / Bayesian / Bayesian analysis / Blood / Brain - diagnostic imaging / Brain - physiology / Cortex / Dynamic causal modelling / Effective connectivity / Electroencephalography / Functional magnetic resonance imaging / Functional Neuroimaging - methods / Haemodynamic models / Hemodynamics / Hemodynamics - physiology / Humans / Interneurons / Magnetic Resonance Imaging / Mathematical models / Models, Biological / Motion detection / Motion Perception - physiology / Nerve Net - diagnostic imaging / Nerve Net - physiology / Neural mass models / Neurovascular Coupling - physiology / Population / Pyramidal cells / Sensory neurons / Time series / Visual perception
2019

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Dynamic causal modelling revisited
Dynamic causal modelling revisited
Journal Article

Dynamic causal modelling revisited

Zeidman, Peter,
Heinzle, Jakob,
Cagnan, Hayriye,
Razi, Adeel,
Mathys, Chris,
Preller, Katrin H.,
Friston, K.J.
2019
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Overview
This paper revisits the dynamic causal modelling of fMRI timeseries by replacing the usual (Taylor) approximation to neuronal dynamics with a neural mass model of the canonical microcircuit. This provides a generative or dynamic causal model of laminar specific responses that can generate haemodynamic and electrophysiological measurements. In principle, this allows the fusion of haemodynamic and (event related or induced) electrophysiological responses. Furthermore, it enables Bayesian model comparison of competing hypotheses about physiologically plausible synaptic effects; for example, does attentional modulation act on superficial or deep pyramidal cells – or both? In this technical note, we describe the resulting dynamic causal model and provide an illustrative application to the attention to visual motion dataset used in previous papers. Our focus here is on how to answer long-standing questions in fMRI; for example, do haemodynamic responses reflect extrinsic (afferent) input from distant cortical regions, or do they reflect intrinsic (recurrent) neuronal activity? To what extent do inhibitory interneurons contribute to neurovascular coupling? What is the relationship between haemodynamic responses and the frequency of induced neuronal activity? This paper does not pretend to answer these questions; rather it shows how they can be addressed using neural mass models of fMRI timeseries. •This paper describes a DCM for fMRI based on neural mass models and canonical microcircuits.•This enables the (Bayesian) fusion of EEG and fMRI data.•That encompasses the formal modelling of neurovascular coupling.•Offers a surprising insight into the relationship between haemodynamic and electrophysiological responses.
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Publisher
Elsevier Inc,Elsevier Limited,Academic Press
Subject

Adult

/ Attention

/ Bayesian

/ Bayesian analysis

/ Blood

/ Brain - diagnostic imaging

/ Brain - physiology

/ Cortex

/ Dynamic causal modelling

/ Effective connectivity

/ Electroencephalography

/ Functional magnetic resonance imaging

/ Functional Neuroimaging - methods

/ Haemodynamic models

/ Hemodynamics

/ Hemodynamics - physiology

/ Humans

/ Interneurons

/ Magnetic Resonance Imaging

/ Mathematical models

/ Models, Biological

/ Motion detection

/ Motion Perception - physiology

/ Nerve Net - diagnostic imaging

/ Nerve Net - physiology

/ Neural mass models

/ Neurovascular Coupling - physiology

/ Population

/ Pyramidal cells

/ Sensory neurons

/ Time series

/ Visual perception

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