Add to ORKGEnergy production in the brain depends almost exclusively on oxidative metabolism. Neurons have small energy reserves and require a continuous supply of oxygen (O2). It is therefore not surprising that one of the hallmarks of normal brain function is the tight coupling between cerebral blood flow and neuronal activity. Since capillaries are embedded in the O2-consuming neuropil, we have here examined whether activity-dependent dips in O2 tension drive capillary hyperemia. In vivo analyses showed that transient dips in tissue O2 tension elicit capillary hyperemia. Ex vivo experiments revealed that red blood cells (RBCs) themselves act as O2 sensors that autonomously regulate their own deformability and thereby flow velocity through...
Blood flow in the brain is regulated by neurons and astrocytes. Knowledge of how these cells control...
The relation between cerebral blood flow (CBF) and cerebral oxygen extraction fraction (OEF) can be ...
Oxygen supply to cells by the cardiovascular system involves multiple physical and chemical processe...
The tight coupling between cerebral blood flow and neural activity is a key feature of normal brain ...
Increases in brain blood flow, evoked by neuronal activity, power neural computation and form the ba...
Increases in brain blood flow, evoked by neuronal activity, power neural computation and form the ba...
Erythrocytes (otherwise known as red blood cells (RBCs)), are the most common cell type in the body....
Brain metabolism is highly dependent on continuous oxygen supply. Cortical microvascular networks ex...
University of Minnesota Ph.D. dissertation.December 2016. Major: Neuroscience. Advisor: Eric Newman...
Brain metabolism is highly dependent on continuous oxygen supply. Cortical microvascular networks ex...
What is the organization of cerebral microvascular oxygenation and morphology that allows adequate t...
Brain metabolism is highly dependent on continuous oxygen supply. Cortical microvascular networks ex...
What is the organization of cerebral microvascular oxygenation and morphology that allows adequate t...
Published in final edited form as: Nat Commun. ; 5: 5734. doi:10.1038/ncomms6734What is the organiz...
Brain metabolism is highly dependent on continuous oxygen supply. Cortical microvascular networks ex...
Blood flow in the brain is regulated by neurons and astrocytes. Knowledge of how these cells control...
The relation between cerebral blood flow (CBF) and cerebral oxygen extraction fraction (OEF) can be ...
Oxygen supply to cells by the cardiovascular system involves multiple physical and chemical processe...
The tight coupling between cerebral blood flow and neural activity is a key feature of normal brain ...
Increases in brain blood flow, evoked by neuronal activity, power neural computation and form the ba...
Increases in brain blood flow, evoked by neuronal activity, power neural computation and form the ba...
Erythrocytes (otherwise known as red blood cells (RBCs)), are the most common cell type in the body....
Brain metabolism is highly dependent on continuous oxygen supply. Cortical microvascular networks ex...
University of Minnesota Ph.D. dissertation.December 2016. Major: Neuroscience. Advisor: Eric Newman...
Brain metabolism is highly dependent on continuous oxygen supply. Cortical microvascular networks ex...
What is the organization of cerebral microvascular oxygenation and morphology that allows adequate t...
Brain metabolism is highly dependent on continuous oxygen supply. Cortical microvascular networks ex...
What is the organization of cerebral microvascular oxygenation and morphology that allows adequate t...
Published in final edited form as: Nat Commun. ; 5: 5734. doi:10.1038/ncomms6734What is the organiz...
Brain metabolism is highly dependent on continuous oxygen supply. Cortical microvascular networks ex...
Blood flow in the brain is regulated by neurons and astrocytes. Knowledge of how these cells control...
The relation between cerebral blood flow (CBF) and cerebral oxygen extraction fraction (OEF) can be ...
Oxygen supply to cells by the cardiovascular system involves multiple physical and chemical processe...