22:40

Olfactory System Explained (Combinatorial Processing, Transduction, Cortex) | Full Discussion

08:58

Axonal Protein Synthesis for Neurotransmission | New Discoveries

14:53

Short-Term Plasticity & Binomial Synapse Explained (Paired-Pulse Facilitation & Depression) | Clip

08:35

Retrograde Transmitter System Explained (Endocannabinoids & Nitric Oxide) | Clip

10:38

Introduction To Cytoarchitecture (Brodmann Areas/Map) | Clip

17:21

Functional Units Of The Brain Explained (Insula, Sensory, Motor & Association Cortices) | Clip

05:56

CNG Channel-Related Retinopathy Explained (Phototransduction in Retina) | Originals

16:31

Cortical Structure Of The Brain Explained (Sulcus & Gyrus) | Clip

09:38

Orexin/Hypocretin Role In Sleep And Narcolepsy Explained (Sleep Neuroscience) | Originals

18:13

Internal Anatomy Of The Spinal Cord Explained (Rexed Laminae & White Matter Tracts) | Clip

18:11

External Anatomy Of The Spinal Cord Explained (Spinal Nerves & Dermatomes) | Clip

09:52

How To Navigate The Central Nervous System Explained (Dorsal, Ventral, Sagittal, Coronal) | Clip

51:14

The Brainstem Explained (With Cranial Nerves & Cross Sections) | Clip

02:28:28

Anatomy Of The Central Nervous System (Spinal Cord, Brainstem, Brain) | Full discussion

19:10

Temporal And Spatial Summation In Neurons Explained (With Passive Membrane Properties) | Clip

15:12

Biogenic Amines Transmitter System Explained (Catecholamines, Serotonin, Histamine) | Clip

15:01

GABA Transmitter System & Synaptic Inhibition Explained (Shunting Inhibition, GABAa, GABAb) | Clip

16:28

Glutamate Transmitter System Explained (NMDA, AMPA, Kainate, mGluR) | Clip

10:34

MAPK Pathway Of Receptor Tyrosine Kinase Explained | Clip

06:53

Gq Pathway Of G-Protein-Coupled Receptors Explained | Clip

11:58

Gs & Gi Pathways Of G-Protein-Coupled Receptors Explained | Clip

19:36

Long-Term Plasticity In The Hippocampus (LTP, LTD, STDP) | Clip

02:15:11

Properties of Neurons In The Central Nervous System (Neurophysiology) | Full discussion

08:19

Experimental Basis for Exocytosis & Endocytosis (Freeze-Fracture Electron Microscopy) | Clip

10:27

Neuromuscular Junction Synapse Explained (nicotinic Acetylcholine Receptors) | Clip

05:17

Python Simulation Of The Hodgkin-Huxley Model | Clip

06:57

Calcium Role In Transmitter Release Explained (Necessary and Sufficient) | Clip

21:20

Hodgkin-Huxley Model of Voltage-Gated Channels Explained (Gating Variables n, m, h) | Clip

08:20

Electrical vs Chemical Synapse Explained (Gap Junctions) | Clip

09:34

Endplate Potentials (EPPs) And Quantal Release Explained (Bernard Katz Experiments) | Clip

07:26

Patch Clamp Explained (Cell-Attached, Whole Cell, Inside Out, Outside Out Configurations) | Clip

06:37

Myelin And Axon Diameter Effect On Action Potential Conduction Velocity (Schwann Cells) | Clip

09:05

Vesicle Cycle Explained (& Clathrin-Mediated Endocytosis) | Clip

01:01:59

Neuromuscular Junction As The Model For Chemical Transmission (Neurophysiology) | Full Discussion

08:00

Action Potential Propagation And The Refractory Period Explained (Relative and Absolute) | Clip

10:13

Goldman Equation And The Resting Membrane Potential Explained | Clip

09:29

Nernst Equation And The Electrochemical Gradient Explained | Clip

14:54

Equivalent Circuit Model Of The Neuron Explained (Capacitance, Resistance, Driving force) | Clip

18:13

Cable Theory Model of the Neuron And Analysis Of The Space Constant Lambda (With Derivations) | Clip

13:52

Neuron As RC Circuit Explained And Analysis of the Time Constant Tau | Clip

15:34

Voltage Clamp Explained (Tetrodotoxin And Tetraethylammonium) | Clip

02:08:38

Signal Propagation In The Neuron (Neurophysiology) | Full Discussion