Types of Brain Connectivity By Amnah Mahroo 992020
Types of Brain Connectivity By Amnah Mahroo 9/9/2020 1
Background Localization of brain function! Most studies on brain function build on the concept that different brain regions support different forms of information processing Neuroanatomists have mapped anatomical connections between brain regions in an attempt to understand structural connectivity of brain 9/9/2020 But this provide a limited picture of information flow in brain Yet, no brain region exits in isolation Information flows between regions via action potentials carried by axons 2
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Types of Brain Connectivity Structural Connectivity Functional Connectivity Effective Connectivity 9/9/2020 4
Anatomical Connectivity A pattern of structural connections between regions based on known axonal projections, i. e. , fiber tracts This has resulted in the mapping of major fiber tracts & have provided general wiring diagram of human brain The whole set of such fiber tracts in the brain is called white matter This research has involved dissection and axon staining in brains of dead humans and non-human primates 9/9/2020 5
Diffusion Tensor Imaging (DTI) DTI is a technique that detects how water travels along the white matter tracts in the brain All neurologically normal individuals share the same fiber tracts But, the integrity of these tracts, eg. , myelination of axons does vary between individuals 9/9/2020 Information about the location and integrity of fiber tracts is collected via DTI provides no info about brain function, only gives info about brain structure DTI is noninvasive 6
Functional Connectivity A pattern of functional relationships among regions, inferred from common changes in activation over time (temporal correlation), that may reflect or indirect links between those regions Why use f. MRI for determining functional connectivity Data collection from entire brain every few seconds providing complete spatial coverage at moderate temporal resolution 9/9/2020 - Spatial resolution vs spatial coverage - Temporal resolution Condition: Right hand movement 7
From coactivation to connectivity: A conceptual overview Example Working memory task Coactivation: - When two or more distinct regions show simultaneous activity during an experimental task - Coactivation does not imply that the regions are functionally connected 9/9/2020 Prefrontal cortex Parietal cortex Fusiform gyrus Inference drawn: these regions are part of single functional system, not a network (because of unknown connectivity and causality) 8
Model for functional connectivity Some aspects of connectivity can be deduced by measuring the covariance or correaltion in activities among the regions during different experimental conditions Condition X - This shows a double disassociation between regions A and B, one manipulation has an effect on A but not B, and second manipulation has effect on B but not A - C provide information about connectivity - Information from anatomical connections 9/9/2020 A B C Condition Y B A C 9
Combining f. MRI with DTI An elegant example of the power of combining DTI with f. MRI data was published in 2007 by Andrews-Hanna & colleagues To test this hypothesis, they collected f. MRI and DTI data from two large samples, younger (18 -40 yrs) & older (60 -93 yrs) and evaluated - Functional connectivity between prefrontal and parietal cortices - Integrity of fiber tracts by DTI - Scores of cognitive test This provides an example of how f. MRI, DTI and behavioral data can be combined to support a simple conclusion 9/9/2020 Disconnection Hypothesis Normal aging Degeneration of white matter Reduce efficacy of information flow Decline in cognitive abilities 10
Resting-state Connectivity Most straightforward evidence that two or more regions share functional connectivity comes from the studies of resting-state connectivity These studies are used to identify synchronous BOLD changes in multiple brain regions while subjects lie in a MRI scanner but do not perform any experimental task - Represent intrinsic operations of brain - Reflect stimulus-independent processing - Primary tool for default network - Very trendy topic of research 9/9/2020 11
Effective Connectivity Causal interactions between different regions of brain. That is, an activation in one area directly causes a modulation, activation or depression, in another area - Focus is how task manipulations perturb the connections - Deals with strength and directionality of connections 9/9/2020 Dynamic Causal Modeling (DCM): A statistical approach for testing models of connectivity between brain regions based on hypothesis about how experimental manipulations alter activation and connectivity between regions 12
Dynamic Causal Modeling 9/9/2020 13
Example of DCM 9/9/2020 Differential modulation of motor network connectivity during movements of upper and lower limbs 14
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