To match the metabolic demands of the brain, mechanisms have evolved to couple neuronal activity to vasodilation, thus increasing local cerebral blood flow and delivery of oxygen and glucose to active neurons. Rather than relying on metabolic feedback signals such as the consumption of oxygen or glucose, the main signalling pathways rely on the release of vasoactive molecules by neurons and astrocytes, which act on contractile cells. Vascular smooth muscle cells and pericytes are the contractile cells associated with arterioles and capillaries, respectively, which relax and induce vasodilation. Much progress has been made in understanding the complex signalling pathways of neurovascular coupling, but issues such as the contributions of capi...
Background: Neurovascular coupling (NVC) is the mechanism whereby an increase in neuronal activity (...
Background: Neurovascular coupling (NVC) is the mechanism whereby an increase in neuronal activity (...
Functional magnetic resonance imaging relies on the coupling between neuronal and vascular activity,...
To match the metabolic demands of the brain, mechanisms have evolved to couple neuronal activity to ...
Neurovascular coupling is a crucial mechanism that matches the high energy demand of the brain with ...
Alzheimer’s disease (AD), the most common form of dementia, is characterized by neuronal degeneratio...
Abstract Efficient blood supply to the brain is of paramount importance to its normal functioning an...
Throughout the body, the vasculature functions as a delivery system, supplying oxygen and nutrients ...
Active neurons increase their energy supply by dilating nearby arterioles and capillaries. This neur...
International audienceThe tight coupling between neuronal activity and the local increase of blood f...
The functional and structural integrity of the brain requires local adjustment of blood flow and reg...
The brain has impressive energy requirements and paradoxically, very limited energy reserves, implyi...
The aim of this research was to develop non-transgenic rodent models relevant to Alzheimer’s disease...
The human brain critically relies on a continuous blood supply to ensure its function. Impaired cer...
Although the nervous and vascular systems are functionally different, they show a high degree of ana...
Background: Neurovascular coupling (NVC) is the mechanism whereby an increase in neuronal activity (...
Background: Neurovascular coupling (NVC) is the mechanism whereby an increase in neuronal activity (...
Functional magnetic resonance imaging relies on the coupling between neuronal and vascular activity,...
To match the metabolic demands of the brain, mechanisms have evolved to couple neuronal activity to ...
Neurovascular coupling is a crucial mechanism that matches the high energy demand of the brain with ...
Alzheimer’s disease (AD), the most common form of dementia, is characterized by neuronal degeneratio...
Abstract Efficient blood supply to the brain is of paramount importance to its normal functioning an...
Throughout the body, the vasculature functions as a delivery system, supplying oxygen and nutrients ...
Active neurons increase their energy supply by dilating nearby arterioles and capillaries. This neur...
International audienceThe tight coupling between neuronal activity and the local increase of blood f...
The functional and structural integrity of the brain requires local adjustment of blood flow and reg...
The brain has impressive energy requirements and paradoxically, very limited energy reserves, implyi...
The aim of this research was to develop non-transgenic rodent models relevant to Alzheimer’s disease...
The human brain critically relies on a continuous blood supply to ensure its function. Impaired cer...
Although the nervous and vascular systems are functionally different, they show a high degree of ana...
Background: Neurovascular coupling (NVC) is the mechanism whereby an increase in neuronal activity (...
Background: Neurovascular coupling (NVC) is the mechanism whereby an increase in neuronal activity (...
Functional magnetic resonance imaging relies on the coupling between neuronal and vascular activity,...