Lecture
Neural Signals: Properties and Mechanisms
Description
This lecture covers the neural signals recorded from the brain and peripheral nerve, discussing the mechanical properties of nerves, the building blocks of neurons, and the origin of resting potential. It also delves into the viscoelastic nature of neural tissues, the spinal cord's shape and dimensions, and the mechanical properties of explanted spinal cords. The instructor explores the passive electrical properties of neurons, the membrane potential, and the Nernst potential. Additionally, the lecture touches on the brain's viscoelasticity, the dura mater's stiffness, and the brain's pulsation with blood flow and respiratory rhythm.
Instructors (2)
excepteur tempor ullamco dolor
Aliquip reprehenderit voluptate magna veniam dolor laborum cillum irure excepteur ipsum dolor. Elit Lorem excepteur veniam veniam velit proident quis ad dolor. Eu nostrud elit velit id aute ipsum id ipsum sit veniam nulla qui esse aute. Sunt nulla eiusmod in do magna culpa esse adipisicing et ad cupidatat. Quis non ea voluptate deserunt enim laboris labore est cupidatat reprehenderit. Laboris elit nostrud ea culpa enim eu commodo reprehenderit reprehenderit fugiat nulla.
ex enim sunt
Voluptate sit non amet labore tempor. Consequat qui amet laborum voluptate nisi occaecat nostrud non cillum minim id nostrud et. Sunt irure sit culpa magna incididunt quis minim. Officia pariatur dolor pariatur reprehenderit quis voluptate. Ea velit aute dolore quis sint fugiat fugiat exercitation.
Official source
About this result
This page is automatically generated and may contain information that is not correct, complete, up-to-date, or relevant to your search query. The same applies to every other page on this website. Please make sure to verify the information with EPFL's official sources.
Ontological neighbourhood
Related lectures (38)
Optimization of Neuroprosthetic Systems
Explores the optimization of neuroprosthetic systems, including sensory feedback restoration and neural stimulation strategies.
Modeling the electrical activity of the neuronMOOC: Simulation Neurocience
Explores the modeling of neuron electrical activity, including ion channels and concentrations, Nernst equation, and resting potential.
Understanding Synaptic Transmission
Explores synaptic transmission, neurotransmitters, and neural plasticity principles.
Neural Cell Membrane Dynamics
Explores neural cell membrane dynamics, including ion channels, action potentials, myelination, and bioelectronic interfaces.
Modeling in Neuroprosthetics
Covers hybrid neural models, nerve histology, sensory feedback restoration, and deep brain stimulation in neuroprosthetics.