The human brain is a complex organ that inherently combines multiscale structure and dynamics and translates them into the functions of the body. Because of the limitations of tools to study the brain in vivo, the understanding of these multiscale dynamics remains to be a challenge. Hence, current neuroscience research tends to investigate brain phenomena at various scales independently. The primary aim of this thesis is to develop a quantitative approach to describe and explain mechanistic links between some multiscale dynamics of the brain, i.e., vascular hemodynamics and neural activity, and their relationships to experimental neuroimaging measurements. The main approach is to develop mathematical models, guided by the physics and phys...
Abstract: A new hemodynamic model relates tissue hemoglobin concentration to blood volume, flow, and...
This dissertation describes the development, implementation, validation, optimization, and applicati...
The work presented in this thesis is intended to contribute towards the understanding of the cerebra...
Dynamics is an essential aspect of the brain function. In this article we review theoretical models ...
The brain and its activity are difficult to observe directly in living subjects, and one of the most...
The functional MRI (fMRI) signal is an indirect measure of neuronal activity. In order to deconvolve...
Modeling of hemodynamic response based on changes of synaptic activity is used for mapping active ar...
AbstractThe functional MRI (fMRI) signal is an indirect measure of neuronal activity. In order to de...
Hemodynamic responses, in general, and the blood oxygenation level-dependent (BOLD) fMRI signal, in ...
ABSTRACTMAPPING UNDERLYING DYNAMIC EFFECTIVE CONNECTIVITY IN NEURAL SYSTEMS USING THE DECONVOLVED NE...
Functional magnetic resonance imaging (fMRI) measures brain activity by detecting the blood-oxygen-l...
The amount of information acquired with functional neuroimaging techniques, particularly fNIRS and f...
International audienceDeveloping a clear understanding of the relationship between cerebral blood fl...
textIn imaging, short wavelength (high-frequency) particles scattered from targets typically yield g...
Time-series provided by high-resolution functional MR imaging (fMRI) bear rich information of underl...
Abstract: A new hemodynamic model relates tissue hemoglobin concentration to blood volume, flow, and...
This dissertation describes the development, implementation, validation, optimization, and applicati...
The work presented in this thesis is intended to contribute towards the understanding of the cerebra...
Dynamics is an essential aspect of the brain function. In this article we review theoretical models ...
The brain and its activity are difficult to observe directly in living subjects, and one of the most...
The functional MRI (fMRI) signal is an indirect measure of neuronal activity. In order to deconvolve...
Modeling of hemodynamic response based on changes of synaptic activity is used for mapping active ar...
AbstractThe functional MRI (fMRI) signal is an indirect measure of neuronal activity. In order to de...
Hemodynamic responses, in general, and the blood oxygenation level-dependent (BOLD) fMRI signal, in ...
ABSTRACTMAPPING UNDERLYING DYNAMIC EFFECTIVE CONNECTIVITY IN NEURAL SYSTEMS USING THE DECONVOLVED NE...
Functional magnetic resonance imaging (fMRI) measures brain activity by detecting the blood-oxygen-l...
The amount of information acquired with functional neuroimaging techniques, particularly fNIRS and f...
International audienceDeveloping a clear understanding of the relationship between cerebral blood fl...
textIn imaging, short wavelength (high-frequency) particles scattered from targets typically yield g...
Time-series provided by high-resolution functional MR imaging (fMRI) bear rich information of underl...
Abstract: A new hemodynamic model relates tissue hemoglobin concentration to blood volume, flow, and...
This dissertation describes the development, implementation, validation, optimization, and applicati...
The work presented in this thesis is intended to contribute towards the understanding of the cerebra...