Single Neuron Data Collection Techniques

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Reduction to 2 dimensions: Exploiting similarities

Explores reducing the Hodgkin-Huxley model to 2 dimensions by exploiting similarities between variables and discussing the nonlinear integrate-and-fire model.

Neurosciences I: Molecular Neuroscience and Neurodegeneration

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

Neural Tissue Interfacing: Techniques and Applications

Discusses tools for high-performance neural tissue recording and stimulation, including CMOS integration and extracellular recording techniques.

Scientific Computing in Neuroscience

Explores scientific computing in neuroscience, emphasizing the simulation of neurons and networks using tools like NEURON, NEST, and BRIAN.

Neurons and Synapses: Overview

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

Neuron Types: Classification and Morphological Diversity

Delves into neuron types, classification, challenges in reconstruction, staining techniques, and artifact correction, highlighting the importance of understanding brain complexity.

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.

The Neuropixels Platform: Visualizing Electrophysiological Rhythms

Delves into the Neuropixels platform, discussing challenges, prospects, and transformative neuroscience experiments.

Neuron Classification: Types and Challenges

Explores neuron classification, highlighting the importance of understanding brain complexity and the challenges in defining cell types.

Micro-ElectroMechanical Systems (MEMS)

Explores Micro-ElectroMechanical Systems (MEMS) development, ion channels, patch clamp technique, drug discovery, and PDMS integration in microfluidic systems.