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Active Model: Ion Channels & Action Potentials
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Membrane potential: Cellular mechanisms
Explains membrane potential, equilibrium potentials, and ion conductances' role in determining the membrane potential.
Cellular Mechanisms of Brain Function
Explores cellular mechanisms of brain function, focusing on ion channels and action potentials.
Cellular Mechanisms of Brain Function
Explores the electrical properties of cell membranes and their role in brain function.
Plasma Membrane Selective Permeability
Explores plasma membrane permeability, osmosis, ion channels, and membrane potential in cells.
Action Potentials: Mechanisms and Propagation
Explains the mechanisms of action potentials and their propagation in neurons, focusing on ion channels and the role of myelination.
Neuronal Signaling: Action Potentials and Conduction
Covers the terminology, generation, and conduction of action potentials in neuronal signaling, along with bioelectric signals and synaptic currents.
Neurophysiological Data Analysis
Covers neurophysiological data analysis, including AP detection, firing rate computation, and spectral analysis, with a focus on predicting cell classes.
Biological Electricity: Action Potential Propagation and Modeling
Explores action potential propagation, membrane modeling, conductance, and encoding signals through action potential trains.
Voltage-gated channels
Explores the cellular mechanisms of brain function through voltage-gated ion channels and their role in regulating membrane potential.
Hodgkin & Huxley model: Spike Dynamics
Explores the Hodgkin & Huxley model, focusing on spike dynamics and membrane currents in excitable cells.
