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Lecture
Cable properties: Cellular Mechanisms of Brain Function
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Biological Electricity: Action Potential Propagation and Modeling
Explores action potential propagation, membrane modeling, conductance, and encoding signals through action potential trains.
Modeling the electrical activity of the neuron
Explores the modeling of neuron electrical activity, including ion channels and concentrations, Nernst equation, and resting potential.
Cellular Mechanisms of Brain Function
Explores the electrical properties of cell membranes and their role in brain function.
Membrane potential: Cellular mechanisms
Explains membrane potential, equilibrium potentials, and ion conductances' role in determining the membrane potential.
In vivo electrophysiology
Explores in vivo electrophysiology techniques for studying brain function through extracellular potentials and whole-cell recordings.
Neural Signals and Signal Processing
Explores neuronal signals, brain organization, measurement techniques, and MRI principles.
Biophysical Understanding of Neuronal Electrical Behavior
Explores the biophysical understanding of neuronal electrical behavior, including challenges in modeling neurons, the generation of action potentials, and the impact of dendritic structure on firing patterns.
The action potential
Covers the Hodgkin and Huxley model for ion conductance and the ionic basis of the action potential.
Optimization of Neuroprosthetic Systems
Explores the optimization of neuroprosthetic systems, including sensory feedback restoration and neural stimulation strategies.
Hodgkin-Huxley Model: Neuronal Excitability
Explores the Hodgkin-Huxley model, action potential phases, ion dynamics, cable theory, and compartmental modeling in neuronal excitability.
