Computational models of functional hyperaemia in the cerebro-vasculature - Cerebral perfusion pressure - Document - PDFSEARCH.IO

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	Computational models of functional hyperaemia in the cerebro-vasculature Add to Reading List Document Date: 2013-01-16 21:33:16 Open Document File Size: 340,91 KB Share Result on Facebook City Canterbury / Cairns / / Company Mathematical Biosciences / IBM / / Country Australia / / Currency pence / / / Facility University of Canterbury / University of Canterbury Summer / / IndustryTerm asymmetric binary tree algorithm / tree branching algorithm / basic network / arterial tree algorithm / abdominal fractal vascular network / cerebral processing / autoregulation algorithm / analytical solutions / actual vascular networks / / Organization Congress / University of Canterbury Summer / Centre for Bioengineering / MCA (Pa) / University of Canterbury / / Person Hannah Farr / / Position General / / PublishedMedium Nature Neuroscience / / Technology Neuroscience / Newton-Raphson algorithm / arterial tree algorithm / simulation / flow control / autoregulation algorithm / binary tree model The tree branching algorithm / asymmetric binary tree algorithm / / URL http / SocialTag Biology Neurology Angiology Physiology Neurotrauma Cerebral blood flow Hyperaemia Autoregulation Cerebral perfusion pressure Medicine

Computational models of functional hyperaemia in the cerebro-vasculatureAdd to Reading List