Summary
Summary PSYC 3270 final exam study notes
- Course
- PSYC 3270 (3270)
- Institution
- University Of Guelph (U Of G )
Study notes for PSYC 3270, based on the textbook 'Cognitive Neuroscience: The Biology of the Mind' by Michael Gazzaniga.
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Chapter 1: Instruments of NeuroscienceElectroencephalography (EEG)
Definition: A non-invasive method that records electrical activity in the brain
through electrodes placed on the scalp. The electrical signals, or brain waves, result
from the synchronous activity of large numbers of neurons, particularly those in the
cortex. EEG is especially effective in capturing real-time neural activity, with high
temporal resolution but low spatial resolution.
Example: EEG is commonly used in sleep studies to identify different stages of sleep
(e.g., REM and non-REM) based on brain wave patterns. It is also employed in
epilepsy research to detect and localize abnormal brain activity leading to seizures.
Implications: EEG provides insights into neural dynamics, helping to understand
processes like attention, perception, and learning. Clinically, it is critical in diagnosing
neurological disorders and monitoring brain function during surgery.
Measuring Blood Flow in the Brain
Definition: Methods like functional Magnetic Resonance Imaging (fMRI) and Positron
Emission Tomography (PET) monitor changes in blood flow or metabolic activity as
indicators of neural activity. Neurons consume oxygen during activation, leading to
localized changes in blood flow captured by these methods.
Example: Increased blood flow in the motor cortex when a person moves their hand.
Implications: These techniques allow researchers to map functional areas of the
brain, providing critical information for understanding how specific regions contribute
to behavior and cognition.
Computerized Axial Tomography (CT)
Definition: A medical imaging technique that uses X-rays to create detailed cross-
sectional images of the brain. CT is particularly effective in visualizing structural
anomalies like tumors, bleeding, or brain injuries.
Example: A CT scan can quickly identify a brain bleed in stroke patients, guiding
emergency treatment.
, Implications: Although primarily structural, CT can aid in functional studies when
paired with other modalities. It is widely used due to its speed and availability,
especially in acute settings.
Positron Emission Tomography (PET) and Radioactive Tracers
Definition: PET imaging detects gamma rays emitted by radioactive tracers
introduced into the bloodstream. These tracers bind to specific molecules, enabling
the measurement of metabolic processes and receptor activity in the brain.
Example: PET is used to study neurotransmitter systems, such as dopamine
pathways in Parkinson's disease.
Implications: PET provides unique insights into the brain's chemical activity, linking
biochemical processes to behavior and pathology. However, it has lower spatial and
temporal resolution compared to fMRI.
Magnetic Resonance Imaging (MRI)
Definition: MRI uses powerful magnetic fields and radio waves to generate high-
resolution images of the brain's structure. Unlike CT, it provides detailed images
without radiation exposure.
Example: MRI is used to detect structural abnormalities such as brain tumors,
multiple sclerosis plaques, or congenital malformations.
Implications: MRI revolutionized neuroscience by offering non-invasive, detailed
views of brain anatomy, essential for understanding neurodevelopment, injury, and
disease progression.
Functional Magnetic Resonance Imaging (fMRI)
Definition: An advanced MRI technique that measures brain activity by detecting
changes in blood oxygenation levels (the Blood Oxygen Level-Dependent or BOLD
signal). fMRI captures dynamic neural processes with high spatial resolution.
Example: fMRI studies reveal activation patterns in the visual cortex when
participants view images or videos.
, Implications: fMRI has deepened our understanding of functional brain networks,
supporting research into cognitive functions like memory, attention, and emotion. Its
utility in mapping active brain regions makes it invaluable for both basic research and
clinical applications.
Limitations of Functional Imaging Techniques
Definition: Functional imaging methods like fMRI and PET have inherent constraints,
including low temporal resolution (fMRI) and the invasive nature of PET (radioactive
exposure). Both methods infer neural activity indirectly through metabolic changes,
which may not precisely correspond to the timing or nature of neural events.
Example: fMRI cannot distinguish between excitatory and inhibitory neural activity,
limiting its interpretative power.
Implications: While functional imaging is powerful for mapping brain activity, its
limitations necessitate combining it with complementary methods like EEG for more
comprehensive insights.
Chapter 2: The Cells and Structure of the Nervous System
Glial Cells and Neurons
Definition: The nervous system comprises two primary types of cells: neurons,
which are the signaling units responsible for transmitting information, and glial cells,
which provide structural, metabolic, and protective support to neurons.
o Neurons have three main components:
Dendrites (input structures that receive signals).
Cell body or soma (integrates signals and contains the nucleus).
Axons (transmit signals to other neurons or muscles via action
potentials).
o Glial Cells: Include astrocytes (maintain the blood-brain barrier),
oligodendrocytes (form myelin in the CNS), Schwann cells (form myelin in the
PNS), and microglia (immune defense in the brain).
, Example: In multiple sclerosis, damage to myelin produced by oligodendrocytes
leads to impaired neuronal communication.
Implications: Glial cells are now recognized as active participants in information
processing, highlighting their role in diseases like Alzheimer’s and Parkinson’s.
Neuronal Signaling
Definition: Neurons communicate through electrical signals (action potentials) and
chemical signals (neurotransmitters). The process begins with an input at the
dendrites, is integrated in the soma, and propagates along the axon as an action
potential.
Example: When you touch a hot object, sensory neurons transmit signals to the
spinal cord, where motor neurons trigger muscle contraction to withdraw your hand.
Implications: Understanding signaling mechanisms is crucial for developing
treatments for neurological conditions such as epilepsy and nerve damage.
Synaptic Transmission
Definition: Synaptic transmission occurs at synapses, where the axon of one neuron
communicates with the dendrite of another. This can be either chemical (involving
neurotransmitters) or electrical (via gap junctions).
o Chemical Transmission: Neurotransmitters are released into the synaptic
cleft and bind to receptors on the postsynaptic membrane, causing excitatory
or inhibitory effects.
o Electrical Transmission: Direct ion flow between neurons through gap
junctions enables rapid communication.
Example: Dopamine is a neurotransmitter critical for motor control and reward
processing. Its deficiency is a hallmark of Parkinson’s disease.
Implications: Abnormalities in synaptic transmission underlie many psychiatric and
neurological disorders, such as depression and schizophrenia.
Overview of Nervous System Structure
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