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Pharmacodynamics exercises
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Related lectures (32)
Synaptic transmission: Structure and Mechanisms
Explores the structure and function of synapses, including neurotransmitter diversity and the role of AMPA and NMDA receptors.
Understanding Synaptic Transmission
Explores synaptic transmission, neurotransmitters, and neural plasticity principles.
Neurotransmitter Glutamate: Receptor Dynamics and Pharmacodynamics
Explores neurotransmitter dynamics, receptor interactions, and pharmacological concepts in CNS synapses.
Untitled
Synaptic Transmission: Electrical vs. Chemical
Explores the differences between electrical and chemical synapses, synaptic plasticity, and receptor behavior.
Pharmacodynamics: Ligand-Receptor Interactions and Drug Effects
Explores ligand-receptor interactions, drug effects, modulation mechanisms, and factors influencing drug responses.
Untitled
Neurotransmitters: Receptors and Effects
Explores major neurotransmitters, their effects, drug therapy, and receptor mechanisms in brain function.
Synaptic Transmission: Electrical vs Chemical
Compares electrical and chemical synapses, emphasizing their properties and behavior, including the neuromuscular junction and synapses in the CNS.
Pharmacodynamics: Ligand Concentration, Binding, and Effect
Explores the relationship between ligand concentration, binding, and effect, focusing on allosteric modulators and types of pharmacological antagonists.
Pharmacodynamics: Ligand-Receptor Binding and Drug Effects
Explores ligand-receptor binding, drug effects, efficacy, potency, and biased agonism in pharmacodynamics.
Synaptic Transmission: Diffusive Component
Explores the diffusive component of synaptic transmission and its impact on brain function.
Pharmacodynamics: Ligand-Receptor Binding Kinetics
Explores ligand-receptor binding kinetics, concentration-effect relationship, and drug therapy impact.
Network Simulation and Activity Dynamics
Explores neural network simulation, activity dynamics, and validation processes to ensure accurate predictions.
Glutamate receptors: Structure and Function
Explores the structure, ion permeability, kinetics, and diversity of glutamate receptors, including AMPA and NMDA, as well as metabotropic receptors.
Drug Targets: Receptors, Enzymes, and Transporters
Explores drug targets like receptors, enzymes, and transporters, focusing on top drug indications and receptor-mediated activation of G proteins.
Postsynaptic Potentials: Cellular Mechanisms
Explores cellular mechanisms of excitatory postsynaptic potentials, emphasizing synaptic summation for action potential threshold.
Synaptic plasticity: mechanisms and functions
Explores the cellular mechanisms of synaptic plasticity, including LTP, LTD, and STDP.
Protein Receptors and Signaling Pathways
Covers protein interactions, signal transduction, neurotransmitters, and pharmacological concepts like agonists and antagonists.
Cellular Mechanisms of Brain Function
Covers the structure of a neuroscience course, focusing on cell membrane, ion channels, synaptic transmission, and brain function.
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