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Na Transport: Ussing's Model
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Action Potentials and Electrical Excitability
Explores the generation and propagation of action potentials in neurons, including the historical significance of Hodgkin & Huxley's work.
Proteins: Structure, Function, and Mechanisms
Explores the structure, function, and mechanisms of proteins, enzymes, motor proteins, transport proteins, and ion channels in cellular processes.
Combining profiles: Electrical, Morphological, Molecular
Covers combining electrical, morphological, and molecular profiles to study single neurons.
Cellular Mechanisms of Brain Function
Explores the electrical properties of cell membranes and their role in brain function.
Modeling the electrical activity of the neuron
Explores the modeling of neuron electrical activity, including ion channels and concentrations, Nernst equation, and resting potential.
Modeling Electrophysiology: Different Scales
Covers modeling electrophysiology at different scales, discussing ion channels, single neurons, and microcircuits.
Voltage-gated channels
Explores the cellular mechanisms of brain function through voltage-gated ion channels and their role in regulating membrane potential.
Micro-ElectroMechanical Systems (MEMS)
Explores Micro-ElectroMechanical Systems (MEMS) development, ion channels, patch clamp technique, drug discovery, and PDMS integration in microfluidic systems.
Hodgkin & Huxley model: Spike Dynamics
Explores the Hodgkin & Huxley model, focusing on spike dynamics and membrane currents in excitable cells.
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