Pages that link to "Item:Q1786363"

The following pages link to Models of neurovascular coupling via potassium and EET signalling (Q1786363):

Displaying 18 items.

• A bidirectional model for communication in the neurovascular unit (Q293747) (← links)
• The role of nitric oxide in neurovascular coupling (Q305544) (← links)
• Modeling secondary messenger pathways in neurovascular coupling (Q376431) (← links)
• Computational analysis of NIRS and BOLD signal from neurovascular coupling with three neuron-system feedforward inhibition network (Q827805) (← links)
• Electrical propagation of vasodilatory signals in capillary networks (Q829256) (← links)
• The role of astrocytic calcium and TRPV4 channels in neurovascular coupling (Q1628217) (← links)
• Macro scale modelling of cortical spreading depression and the role of astrocytic gap junctions (Q1712834) (← links)
• Estimating hemodynamic stimulus and blood vessel compliance from cerebral blood flow data (Q1716831) (← links)
• Origins of blood volume change due to glutamatergic synaptic activity at astrocytes abutting on arteriolar smooth muscle cells (Q1788144) (← links)
• Origins of the BOLD changes due to synaptic activity at astrocytes abutting arteriolar smooth muscle (Q1794430) (← links)
• Neurovascular coupling and the influence of luminal agonists via the endothelium (Q2413889) (← links)
• The effects of cerebral curvature on cortical spreading depression (Q2415817) (← links)
• Global sensitivity analysis of high-dimensional neuroscience models: an example of neurovascular coupling (Q2417537) (← links)
• A Model of Indispensability of a Large Glial Layer in Cerebrovascular Circulation (Q3556786) (← links)
• (Q5134760) (← links)
• Dynamic activation model for a glutamatergic neurovascular unit (Q5963474) (← links)
• A model of neurovascular coupling and its application to cortical spreading depolarization (Q6078362) (← links)
• Cellular communication among smooth muscle cells: the role of membrane potential via connexins (Q6192820) (← links)