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Ali Neishabouri
Ali Neishabouri
Research associate, Imperial College London
Verified email at imperial.ac.uk
Title
Cited by
Cited by
Year
Saltatory conduction in unmyelinated axons: Clustering of Na channels on lipid rafts enables micro-saltatory conduction in C-fibers
A Neishabouri, AA Faisal
Frontiers in Neuroanatomy 1 (109), 2014
50*2014
Axonal Noise as a Source of Synaptic Variability
A Neishabouri, AA Faisal
PLOS Computational Biology 10 (5), e1003615, 2014
502014
The metabolic efficiency of myelinated vs unmyelinated axons
A Neishabouri, AA Faisal
BMC Neuroscience 12 (Suppl 1), P100, 2011
162011
Fundamental constraints on the evolution of neurons
AA Faisal, A Neishabouri
The Wiley Handbook of evolutionary neuroscience, 153-172, 2016
42016
Stochastic simulations reveal how clustering sodium ion channels in thin axons more than doubles the metabolic efficiency of action potentials
A Neishabouri, A Finn, A Pristera, K Okuse, AA Faisal
Frontiers in Computational Neuroscience, 133, 2012
12012
Are spikes unitary events? How axonal noise produces synaptic variability.
A Neishabouri, AA Faisal
Cosyne, 2014
2014
Synaptic variability from axonal noise
A Neishabouri, AA Faisal
Ion Channels in health and disease, 2013
2013
Energy constraints limit the sustainable firing rate of thin axons of the CNS and PNS
A Neishabouri, AA Faisal
Ion Channels in health and disease, 2013
2013
Energy constraints link structure and function in thin axons in the brain’s wiring
A Neishabouri, AA Faisal
Cosyne, 2013
2013
Energy constraints impose a limit on the firing rate of thin axons
A Neishabouri, FA Aldo
Champalimaud neuroscienee symposium, 2012
2012
Clustering of NaV1.8 voltage-gated channels on lipid rafts triples the metabolic efficiency of the action potential in small diameter C-fibre axons
A Neishabouri, AA Faisal
Society of Neuroscience meeting, 2012
2012
Clustering of NaV1.8 in Small Diameter Unmyelinated Axons Reduces Metabolic Cost
A Neishabouri, A Finn, A Pristerà, AA Faisal, K Okuse
60 years of the Hodgkin-Huxley model, 2012
2012
Diffusion of nodal sodium channels can restore function in multiple sclerosis
A Neishabouri, AA Faisal
Cosyne, 2012
2012
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