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A compartmental brain model for chemical transport and CO2 controlled blood flow.
S. Sorek
,
A. Yakirevich
, M. Feinsod
Zuckerberg Institute for Water Research
Research output
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Article
›
peer-review
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Keyphrases
Blood Flow
100%
Capillary
100%
Chemical Transport
100%
Brain Model
100%
Cerebrospinal Fluid
66%
Diffusivity
33%
Perfusion
33%
Brain Tissue
33%
Perfusion Pressure
33%
Transport Model
33%
PH Value
16%
Chemical Reaction
16%
Reaction Rate
16%
Model Prediction
16%
Compartmental Model
16%
Asymptotic Value
16%
Sensitivity Analysis
16%
Coupled Mass
16%
Advection
16%
Mass Balance Equation
16%
Metabolic Rate
16%
Equation of State
16%
Carbon Dioxide
16%
Clinical Observation
16%
Conductance
16%
Parameter Influence
16%
Choroid Plexus
16%
Fluid Compartments
16%
Bicarbonate Ion
16%
First-order Reaction
16%
Venous Sinus
16%
Non-steady
16%
Tissue Compartments
16%
Parameter Estimation Method
16%
Cerebrovascular System
16%
Boundary Diffusion
16%
Hydrogen Ion
16%
Pre-evaluated
16%
Jugular Bulb
16%
Pharmacology, Toxicology and Pharmaceutical Science
Carbon Dioxide
100%
Dicarbonate
16%
Proton
16%