Marius Causemann
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View article: Stretch and flow at the gliovascular interface: high-fidelity modelling of the mechanics of astrocyte endfeet
Stretch and flow at the gliovascular interface: high-fidelity modelling of the mechanics of astrocyte endfeet Open
Astrocyte endfeet form a near-continuous sheath around the brain’s vasculature, defining the perivascular space (PVS) implicated in fluid flow and solute transport. Yet, their precise physiological role remains incompletely understood. Thi…
View article: In-silico molecular enrichment and clearance of the human intracranial space
In-silico molecular enrichment and clearance of the human intracranial space Open
The mechanisms of intracranial solute transport are fundamental to human brain health, with alterations often linked to disease and functional impairment, and with distinct opportunities for personalized diagnostics and treatment. However,…
View article: EMI-Meshing: High-quality extracellular-membrane-intracellular meshes of the mouse visual cortex
EMI-Meshing: High-quality extracellular-membrane-intracellular meshes of the mouse visual cortex Open
This repository features a family of tetrahedral meshes of a dense reconstruction of the mouse visual cortex at extreme resolution. Both the extracellular space (ECS) and the main cellular structures are explicitly represented and labelled…
View article: EMI-Meshing: High-quality extracellular-membrane-intracellular meshes of the mouse visual cortex
EMI-Meshing: High-quality extracellular-membrane-intracellular meshes of the mouse visual cortex Open
This repository features a family of tetrahedral meshes of a dense reconstruction of the mouse visual cortex at extreme resolution. Both the extracellular space (ECS) and the main cellular structures are explicitly represented and labelled…
View article: Human intracranial pulsatility during the cardiac cycle: a computational modelling framework
Human intracranial pulsatility during the cardiac cycle: a computational modelling framework Open
Background Today’s availability of medical imaging and computational resources set the scene for high-fidelity computational modelling of brain biomechanics. The brain and its environment feature a dynamic and complex interplay between the…
View article: Human intracranial pulsatility during the cardiac cycle: a computational modelling framework
Human intracranial pulsatility during the cardiac cycle: a computational modelling framework Open
Background: Today's availability of medical imaging and computational resources set the scene for high-fidelity computational modelling of brain biomechanics. The brain and its environment feature a dynamic and complex interplay between th…
View article: Human intracranial pulsatility during the cardiac cycle: a computational modelling framework
Human intracranial pulsatility during the cardiac cycle: a computational modelling framework Open
Background Today’s availability of medical imaging and computational resources set the scene for high-fidelity computational modelling of brain biomechanics. The brain and its environment feature a dynamic and complex interplay between the…