psy 211 module 2
what are the 3 main parts of the neuron
cell body, axon, dendrites
what type of transmission is synapses?
chemical
ERPs
consistent patterns of EEG that are triggered by a stimulus and are embedded in the overall EEG
why is there a different amount of action potentials?
different number based on amount/type of information the neuron is trying to display to next circuit
sulcus/fissure
each crease
true or false: the action potentials get smaller as they travel down axon
false: they don't get smaller
single units
individual neurons
hippocampus
long term memory
how to study lesions
look for overlaps to avoid problems of how unique everyone's lesions are or create artificial lesions in animals and are able to choose location of lesion
action potentials
messages sent by axons and are "all or none"
what is the downside of fMRI and PET scans
neurons might get more active bc they're doing a specific type of processing of a stimulus=increase in blood flow to that region
what's the second stage in information transmission?
neurotransmitter is released into synaptic cleft
temporal resolution
not exactly when it was active
central sulcus
separates partial and frontal lobes
what is the 1st approach for determining the relationship between an anatomical area and a cognitive process?
1. measure the cognitive process in person or animals with damage in a specific brain area
how many glial cells are in the brain?
10 trillion
what is the 2nd approach for determining the relationship between an anatomical area and a cognitive process?
2. stimulate the area and measure the cognitive process
how much does the human brain weigh
3-4 pounds
what is the 3rd approach for determining the relationship between an anatomical area and a cognitive process?
3. measure neural activity in the area while the cognitive process is engaged
fMRI (functional MRI)
A technique for revealing bloodflow and, therefore, brain activity by comparing successive MRI scans. fMRI scans show brain function.
what do the motor and somatosensory cortex have?
a map of the body
what does firing mean?
a neuron generating action potentials
transcranial magnetic stimulation (TMS)
a noninvasive stimulation that is a very strong magnetic field that passes through skull and causes neurons to fire
PET (positron emission tomography) scan
a visual display of brain activity that detects where a radioactive form of glucose goes while the brain performs a given task
what's the first stage in information transmission?
action potential (aka spike) travels down axon to presynaptic neuron
myelin
allows faster transmission along nerve cells
how do we record brain activity?
an electrode is put down right by the neuron and we report as that action potential is sent down the axon
lesion
damage in a specific brain area
inhibitory postsynaptic potential
decreases activation of the postsynaptic cell
what lobe is in the front half
frontal
what are PET and fMRIs good at, but also poor at?
good spatial resolution, poor temporal resolution
what are ERPs good at, but also poor at?
good temporal resolution, poor spatial resolution
excitatory postsynaptic potential
increases activation of postsynaptic cell
dendrites
inputs of neurons and receives information from other neurons
what are the association areas
involved in complex aspects that go beyond simple sensory modalities
what's the fourth and final step in information transmission?
ions flow into or out of the postsynaptic cell, generating a postsynaptic potential
cell body
keeps cell alive
brocas area
language area in the prefrontal cortex
contralateral
on the opposite side of the body
ipsilateral
on the same side of the body
axon
outputs of neuron and sends information away from cell body
what 3 lobes are in the back half
parietal, temporal, and occipital
the Electroencephalogram (EEG)
some voltage "leaks" through the active region of the cortex; each line corresponds with the patch on the head
what the diagram for cognitive neuroscience?
stimulus --> brain --> response
how are lesions caused?
stroke, heart attack, or physical damage
what are the primary techniques for cognitive neuroscience
the fMRI and EEG/ERPs
Where does the right side of the brain receive input from?
the left side of the body
what does the right side of the brain control?
the muscles of the left side of the body
what does the left side of the brain control?
the muscles on the right side of the body
what's the third stage in information transmission?
the neurotransmitter binds with receptor on postsynaptic neuron, chasing ion channels to open or close
where does the left side of the brain receive input from?
the right side of space
cognitive neuroscience
the study of neural mechanisms underlying mental processes
synapses
tiny gaps between dentrites and axons of different neurons
How many nerve cells are in the brain?
trillion and each are connected to 10,000 others
how many cells are in the brain?
trillions of individual cells connected together that transmit signals to other cells
true or false: cognitive neuroscience helped solve some long standing debates in field
true
MRI (magnetic resonance imaging)
uses the magnetic properties of atoms to get a high resolution picture of brain structure; see lesions and location of it
how is information sent in the neuron?
via electrical activity
what is John Locke's idea on association areas
we learn by associated bc we are born with a blank slate brain
spatial resolution
which part of the brain is active
are each action potentials the same size?
yes
do neurons use both electrical and chemical communication?
yes
is there a delay for fMRIs?
yes, there is a 6 second delay between change in neural activity and change in blood flow
