Functional magnetic resonance imaging relies on the coupling between neuronal and vascular activity, but the mechanisms behind this coupling are still under discussion. Recent experimental evidence suggests that calcium signaling may play a significant role in neurovascular coupling. However, it is still controversial where this calcium signal is located (in neurons or elsewhere), how it operates and how relevant is its role. In this paper we introduce a biologically plausible model of the neurovascular coupling and we show that calcium signaling in astrocytes can explain main aspects of the dynamics of the coupling. We find that calcium signaling can explain so-far unrelated features such as the linear and non-linear regimes, the negative ...
Localized, heterogeneous calcium transients occur throughout astrocytes, but the characteristics and...
The communication of calcium signals between cells is known to be operative between neurons where th...
The computational neuroscience field has heavily concentrated on the modeling of neuronal functions,...
Functional magnetic resonance imaging relies on the coupling between neuronal and vascular activity,...
Astrocytes in the central nervous system engage in bi- directional signaling with neurons, and have ...
Neurovascular coupling is the basis of the BOLD fMRI, however, the mechanisms of the neurovascular c...
Functional magnetic resonance imaging (fMRI) based on blood oxygen level dependent (BOLD) signals re...
BOLD fMRI has been wildly used for mapping brain activity, but the cellular contribution of BOLD sig...
Historically, experimental methods to investigate astrocyte function in the intact brain have been l...
Summary: The role of astrocytes in neurovascular coupling (NVC) is unclear. Here, we applied a multi...
A consistent and prominent feature of brain functional magnetic resonance imaging (fMRI) data is the...
The computational neuroscience field has heavily concentrated on the modeling of neuronal functions,...
Here, we expressed genetically encoded fluorescent reporter iGluSnFR for extracellular glutamate (Gl...
To match the metabolic demands of the brain, mechanisms have evolved to couple neuronal activity to ...
Localized, heterogeneous calcium transients occur throughout astrocytes, but the characteristics and...
Localized, heterogeneous calcium transients occur throughout astrocytes, but the characteristics and...
The communication of calcium signals between cells is known to be operative between neurons where th...
The computational neuroscience field has heavily concentrated on the modeling of neuronal functions,...
Functional magnetic resonance imaging relies on the coupling between neuronal and vascular activity,...
Astrocytes in the central nervous system engage in bi- directional signaling with neurons, and have ...
Neurovascular coupling is the basis of the BOLD fMRI, however, the mechanisms of the neurovascular c...
Functional magnetic resonance imaging (fMRI) based on blood oxygen level dependent (BOLD) signals re...
BOLD fMRI has been wildly used for mapping brain activity, but the cellular contribution of BOLD sig...
Historically, experimental methods to investigate astrocyte function in the intact brain have been l...
Summary: The role of astrocytes in neurovascular coupling (NVC) is unclear. Here, we applied a multi...
A consistent and prominent feature of brain functional magnetic resonance imaging (fMRI) data is the...
The computational neuroscience field has heavily concentrated on the modeling of neuronal functions,...
Here, we expressed genetically encoded fluorescent reporter iGluSnFR for extracellular glutamate (Gl...
To match the metabolic demands of the brain, mechanisms have evolved to couple neuronal activity to ...
Localized, heterogeneous calcium transients occur throughout astrocytes, but the characteristics and...
Localized, heterogeneous calcium transients occur throughout astrocytes, but the characteristics and...
The communication of calcium signals between cells is known to be operative between neurons where th...
The computational neuroscience field has heavily concentrated on the modeling of neuronal functions,...