Lectures related to Validation of synaptic physiology

Network Simulation and Activity Dynamics

Explores neural network simulation, activity dynamics, and validation processes to ensure accurate predictions.

Explores Rall's cable model, synaptic potential spread in dendrites, and compartmental modeling for neural simulations.

Explores synaptic transmission, neurotransmitters, and neural plasticity principles.

Synaptic Transmission: Electrical vs Chemical

Compares electrical and chemical synapses, emphasizing their properties and behavior, including the neuromuscular junction and synapses in the CNS.

Neurosciences I: Molecular Neuroscience and Neurodegeneration

Covers molecular neuroscience, neurodegeneration, cell types, neuron structure, and history of neuroscience breakthroughs.

Modeling synaptic transmission: Stochastic Dynamics

Explores stochastic synaptic transmission modeling, parameters, inhibitory effects, and synaptic reliability.

Data strategies: building neural circuits

Explores data strategies for building neural circuits in simulation neuroscience.

Simulating Single Cells with Paired Recording App

Demonstrates simulating single cells in a hippocampus microcircuit using a paired recording app.

Modelling principles for CA1 Microcircuit simulation

Explores principles of data-driven modeling for simulating hippocampus microcircuits.

Modeling Electrophysiology: Different Scales

Covers modeling electrophysiology at different scales, discussing ion channels, single neurons, and microcircuits.

Cellular Mechanisms of Brain Function

Covers the structure of a neuroscience course, focusing on cell membrane, ion channels, synaptic transmission, and brain function.

In Silico Neuroscience: Network Assembly

Explores assembling in silico neuroscience networks, defining space, and dealing with sparse data to reconstruct brain regions.

Injecting a current

Explains injecting current into a neuron, creating recordings, running simulations, and handling synapses.

Synaptic Transmission: Electrical vs. Chemical

Explores the differences between electrical and chemical synapses, synaptic plasticity, and receptor behavior.

Introduction into the module

Introduces nerve cells' electrical activity, focusing on spikes and synaptic potentials.

Biopotential Generation: Synaptic Transmission

Explores biopotential generation and synaptic transmission, including neurotransmitter release and dopamine's effects on Parkinson's disease.

Synaptic transmission: Structure and Mechanisms

Explores the structure and function of synapses, including neurotransmitter diversity and the role of AMPA and NMDA receptors.

Neurons and Synapses: Overview

Covers computational neuroscience basics, single neuron models, synapses, and neural variability.

In Silico Neuroscience: Ion Channels and Neuronal Models

Explores detailed modeling of ion channels and neuronal morphologies in in silico neuroscience, covering neuron classification, ion channel kinetics, and experimental observations.

Dendrite as a Cable

Discusses dendrites as cables, covering the cable equation derivation and current conservation in coupled compartments.