Biology of Mind Chapter 2 PDF

Summary

This document is a presentation about the biology of the mind, explaining the basic concepts of the nervous system, starting with neurons and neurotransmitters, and progressing to explain the endocrine system, as well as several tools for investigating the structure and function of the human brain such as lesions and imaging techniques.

Full Transcript

Chapter 2
The Biology
of Mind

MR. CARLO “MACHO” MAGPAROC
Instructor 1
Surveying the Chapter: Overview
What We Have in Mind

▪ Building blocks of the mind: neurons
and how they communicate
(neurotransmitters)
▪ Systems that build the mind: functions
of the parts of the nervous system
▪ Supporting player: the
slower-communicating endocrine
system (hormones)
▪ Star of the show: the brain and its
structures
2
Searching for the self by studying the body
Phrenology
Phrenology
(developed by Franz Gall in
the early 1800’s):

the study of bumps on the
skull and their relationship
to mental abilities and
character traits
▪ Phrenology yielded one big
idea--that the brain might have
different areas that do different
things (localization of function).
3
Today’s search for the biology of the self:
biological
▪ Biological psychology
psychology
includes neuroscience,
behavior genetics,
neuropsychology, and
evolutionary psychology.
▪ All of these
subspecialties explore
different aspects of:
how the nature of mind
and behavior is rooted in
our biological heritage.
▪ Our study of the biology
of the mind begins with
the “atoms” of the mind:
neurons. 4
Neurons and Neuronal Communication:
The Structure of a Neuron

There are billions of neurons
(nerve cells) throughout the body. 5
 Action potential:
a neural impulse that travels down an axon like
a wave
Just as “the wave” can flow to
the right in a stadium even
though the people only move
up and down, a wave moves
down an axon although it is
only made up of ion exchanges
moving in and out.

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 When does the cell send
the action potential?...
when it reaches a
threshold How neurons communicate
▪ When the (with each other): The signal is
The neuron threshold is
receives transmitted
reached, the The action to another
signals from action potential potential
other cell.
starts moving. travels down However, the
neurons; ▪ Like a gun, it the axon
some are message
either fires or it from the cell must find a
telling it to doesn’t; more body to the
fire and some way to cross
stimulation does terminal a gap
are telling it nothing. branches.
not to fire. between
▪ This is known as cells. This
the gap is also
“all-or-none” called the
response. synapse.
The threshold is reached when
excitatory (“Fire!”) signals
outweigh the inhibitory (“Don’t
fire!”) signals by a certain amount. 7
 The Synapse
The synapse is a
junction between the
axon tip of the
sending neuron and
the dendrite or cell
body of the receiving
neuron.

The synapse is
also known as the
“synaptic
junction” or
“synaptic gap.”
8
 Neurotransmitters
Neurotransmitters
are chemicals
used to send a
signal across the
synaptic gap.

9
 Reuptake:
Recycling Neurotransmitters [NTs]

Reuptake:
After the neurotransmitters
stimulate the receptors on
the receiving neuron, the
chemicals are taken back up
into the sending neuron to
be used again.

10
Neural Communication:
Seeing all the Steps Together

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 Roles of Different Neurotransmitters
Some Neurotransmitters and Their Functions
Neurotransmitter Function Problems Caused by Imbalances
Serotonin Affects mood, hunger, Undersupply linked to depression; some
sleep, and arousal antidepressant drugs raise serotonin
levels
Dopamine Influences movement, Oversupply linked to schizophrenia;
learning, attention, and undersupply linked to tremors and
emotion decreased mobility in Parkinson’s
disease and ADHD
Acetylcholine Enables muscle action, ACh-producing neurons deteriorate as
(ACh) learning, and memory Alzheimer’s disease progresses
Norepinephrine Helps control alertness Undersupply can depress mood and
and arousal cause ADHD-like attention problems
GABA A major inhibitory Undersupply linked to seizures,
(gamma-aminobut neurotransmitter tremors, and insomnia
yric acid
Glutamate A major excitatory Oversupply can overstimulate the brain,
neurotransmitter; producing migraines or seizures; this is
involved in memory why some people avoid MSG
(monosodium glutamate) in food 12
 Serotonin Dopamine
pathways pathways
Networks of neurons that Networks of neurons that
communicate with serotonin communicate with dopamine are
help regulate mood. involved in focusing attention and
controlling movement.

13
Hearing the message
How Neurotransmitters Activate
Receptors
When the
key fits,
the site is
opened.

14
 Keys that almost fit:
Agonist and Antagonist Molecules

An agonist molecule fills An antagonist molecule
the receptor site and fills the lock so that the
activates it, acting like the neurotransmitter cannot
neurotransmitter. get in and activate the
receptor site.
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 The Inner and Outer Parts of the
Nervous System
The
The central peripheral
nervous nervous
system system [PNS]
[CNS] consists of
consists of ‘the rest’ of
the brain the nervous
and spinal system.
cord.
The PNS
The CNS gathers and
makes sends
decisions information
for the to and from
body. the rest of 16
More Parts of the Nervous System

17
The Autonomic
Nervous
System:

The sympathetic
NS arouses
(fight-or-flight)

The
parasympathetic
NS calms
(rest and digest)
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The Body’s “Slow but Sure”
Endocrine Message System
▪ The endocrine
system sends
molecules as
messages, just like
the nervous system,
but it sends them
through the
bloodstream instead
of across synapses.
▪ These molecules,
called hormones,
are produced in
various glands The endocrine system refers to a set of
around the body. glands that produce chemical messengers
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called hormones.
 produce hormones such as
Adrenal Glands adrenaline/epinephrine,
noradrenaline/norepinephrine, and
cortisol.
Adrenal Glands 1. The sympathetic
“fight or flight”
nervous system
responds to stress
by sending a
message to
adrenal glands to
Pancreas
release the
hormones listed
above.
2. Effect: increased
heart rate, blood
pressure, and
blood sugar. These20
The Pituitary Gland
▪ The pituitary gland is the
“master gland” of the
endocrine system.
▪ It is controlled through
the nervous system by the
nearby brain area--the
Pituitary gland
hypothalamus.
▪ The pituitary gland
produces hormones that
regulate other glands
such as the thyroid.
▪ It also produces growth
hormone (especially
during sleep) and
oxytocin, the “bonding” 21
Investigating the Strategies for finding out
what is different about the
Brain and Mind: mind when part of the brain
isn’t working normally:
▪case studies of accidents
(e.g. Phineas Gage)
▪case studies of split-brain
How did we move beyond patients (corpus callosum
phrenology and get inside the cut to stop seizures)
skull and under the “bumps”? ▪lesioning brain parts in
▪by finding what happens when animals to find out what
part of the brain is damaged or happens
otherwise unable to work ▪chemically numbing,
properly magnetically deactivating,
▪by looking at the structure and or electrically stimulating
activity of the brain: CAT, MRI, parts of the brain 22
Studying cases of brain damage
When a stroke or injury damages part of the brain, we
have a chance to see the impact on the mind.

23
Intentional brain damage:
Lesions (surgical
destruction of brain
tissue)
▪ performed on animals
▪ has yielded some
insights, especially
about less complex
brain structures
▪ no longer necessary, as
we now can chemically
or magnetically
deactivate brain areas
to get similar
information 24
Split-Brain Patients
▪ “Split” = surgery in
which the
connection between
the brain
hemispheres is cut
in order to end
severe full-brain
seizures
▪ Study of split-brain
patients has yielded
insights discussed at
the end of the
chapter
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We can stimulate parts of the brain
to see what happens
▪ Parts of the brain, and even neurons, can
be stimulated electrically, chemically, or
magnetically.
▪ This can result in behaviors such as
giggling, head turning, or simulated vivid
recall.
▪ Researchers can see which neurons or
neural networks fire in conjunction with
certain mental experiences, and even
specific concepts.

26
 EEG: PET: positron emission
electroencephalogram tomography

An EEG The PET scan allows us to see
(electroencephalogram) is what part of the brain is active
a recording of the by tracing where a radioactive
electrical waves sweeping form of glucose goes while the
across the brain’s surface. brain performs a given task.
It is useful in studying
seizures and sleep.

27
 MRI: magnetic
fMRI: functional MRI
resonance imaging

MRI (magnetic resonance imaging) Functional MRI reveals
makes images from signals produced by brain activity and
brain tissue after magnets align the spin function rather than
of atoms. structures.
Functional MRI
The arrows below show ventricular compares successive
enlargement in a schizophrenic patient MRI images taken a
(right). split second apart, and
shows changes in the
level of oxygen in
bloodflow in the brain.

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Areas of the brain and their functions

The limbic
The brainstem The cortex (the
(border)
and cerebellum: outer covering):
system:
coordinates manages integrates
the body emotions, and information
connects
thought to
body

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 The Brainstem:
Pons and Medulla

▪ The medulla controls the most basic functions such as heartbeat and breathing.

▪ Someone with total brain damage above the medulla could still breathe

independently, but someone with damage in this area could not.

▪ The pons helps coordinate automatic and unconscious movements. 30
The Thalamus (“Inner Chamber”)

▪ The thalamus is the
“sensory switchboard” or
“router.”
▪ All sensory messages,
except smell, are routed
through the thalamus on
the way to the cortex
(higher, outer brain).
▪ The thalamus also sends
messages from the cortex
to the medulla and 31
 Reticular (“Netlike”) Formation

▪ The reticular formation is a
nerve network in the
brainstem.
▪ It enables alertness,
(arousal) from coma to
wide awake (as
demonstrated in the cat
experiments).
▪ It also filters incoming
sensory information.
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 Cerebellum (“little brain”)
The cerebellum
helps coordinate
voluntary
movement such as
playing a sport.

The cerebellum has many other
functions, including enabling
nonverbal learning and memory. 33
The Limbic (“Border”) System
The limbic system coordinates:
▪ emotions such as fear and
aggression.
▪ basic drives such as hunger
and sex.
▪ the formation of episodic
memories.
The hippocampus
(“seahorse”)
▪ processes conscious,
episodic memories.
▪ works with the amygdala
to form emotionally
charged memories.
The Amygdala (“almond”)
▪ consists of two lima bean-
sized neural clusters. 34
▪ helps process emotions,
 The Amygdala
▪ Electrical
stimulation of a
cat’s amygdala
provokes aggressive
reactions.
▪ If you move the
electrode very
slightly and cage the
cat with a mouse,
the cat will cower
in terror. 35
 The Hypothalamus:
▪ lies below (“hypo”) the thalamus. Thalamus
▪ regulates body temperature and
ensures adequate food and
water intake (homeostasis), and
is involved in sex drive.
▪ directs the endocrine system via
messages to the pituitary gland.
The Hypothalamus as a Reward Center Riddle: Why did the rat
cross the grid?
Why did the rat want to
get to the other side?
Pushing the pedal that
stimulated the electrode
placed in the
hypothalamus was much
more rewarding than 36food
pellets.
Review of Brain Structures

37
 The Cerebral Cortex
The lobes consist of:
▪ outer grey “bark” structure that is wrinkled in order to
create more surface area for 20+ billion neurons.
▪ inner white stuff—axons linking parts of the brain.
▪ 180+ billion glial cells, which feed and protect neurons
and assist neural transmission.
300 billion synaptic
connections

The brain has
left and right 38
hemispheres
The Lobes of the Cerebral Cortex:
Preview

▪ Frontal Lobes involved in speaking and
muscle movements and in
making plans and judgments
▪ Parietal Lobes include the sensory cortex

include the visual areas;
▪ Occipital Lobes they receive visual
information from the
opposite visual field
▪ Temporal Lobes include the auditory
processing areas

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 Functions of the Brain:
The Motor and Sensory Strips
Output: Motor Input: Sensory
cortex (Left cortex (Left
hemisphere hemisphere
section controls section receives
the body’s right input from the
side) body’s right side)

🡨 Axons 🡨Axons
receiving motor sending
signals FROM sensory
the cortex information
40
TO the cortex
 Sensory Functions of the Cortex

▪ The sensory strip deals
with information from
touch stimuli.
▪ The occipital lobe deals
with visual information.
▪ Auditory information is
sent to the temporal lobe.

41
The Visual Cortex

This fMRI scan
shows
increased
activity in the
visual cortex
when a person
looks at a
photograph.

42
Association function of the cortex
More complex animals have more cortical space
devoted to integrating/associating information

43
 Association Areas:
Frontal Lobes
▪ The frontal lobes are
active in “executive
functions” such as
judgment, planning, and
inhibition of impulses.
▪ The frontal lobes are also
active in the use of
working memory and the
processing of new
memories.
44
Phineas Gage (1823-1860)
Case study: In a work accident, a
metal rod shot up through Phineas
Gage’s skull, destroying his eye and
part of his frontal lobes.
After healing, he was able to function
in many ways, but his personality
changed; he was rude, odd, irritable,
and unpredictable.

Possible explanation:
Damage to the frontal lobes could
result in loss of the ability to suppress
impulses and to modulate emotions.
45
Parietal Lobe Association Areas
This part of the brain has many functions in the
association areas behind the sensory strip:
▪managing input from multiple senses
▪performing spatial and mathematical reasoning
▪monitoring the sensation of movement

46
Temporal Lobe Association Areas

Some abilities managed by association areas in this “by
the temples” lobe:
▪recognizing specific faces
▪managing sensory input related to sound, which helps the47
Whole-brain Association Activity
Whole-brain association
activity involves complex
activities which require
communication among
association areas across the
brain such as:
▪memory
▪language
▪attention
▪meditation and spirituality
▪consciousness
48
Specialization and Integration
Five steps in reading a word aloud:

49
Plasticity: The Brain is Flexible
If the brain is damaged,
especially in the general
association areas of the
cortex:
▪the brain does not repair
damaged neurons, BUT it
can restore some
functions
▪it can form new
connections, reassign This 6-year-old had a
existing networks, and hemispherectomy to end
insert new neurons, some life-threatening seizures; her
grown from stem cells remaining hemisphere
compensated for the damage. 50
 Our Two
Hemispheres

Lateralization (“going to one side”)
The two hemispheres serve some different functions.
How do we know about these differences?
▪Brain damage studies revealed many functions of the
left hemisphere.
▪Brain scans and split brain studies show more about
the functions of the two hemispheres, and how they
coordinate with each other.
51
The intact but lateralized brain
Right-Left Hemisphere Differences
Left Hemisphere Right Hemisphere

Thoughts and logic Feelings and intuition
Details such as “trees” Big picture such as “forest”
Language: words and Language: tone, inflection,
definitions context
Linear and literal Inferences and associations
Calculation Perception
Pieces and details Wholes, including the self

52
 Split- Brain Studies

To end severe
whole-brain
seizures, some
people have had
surgery to cut the
corpus callosum,
a band of axons Researchers have studied the
connecting the impact of this surgery on
hemispheres. patients’ functioning.
53
 Split visual field

Each hemisphere does
not perceive what each
EYE sees. Instead, it
perceives the half of the
view in front of you that
goes with the half of the
body that is controlled
by that hemisphere.

54
Divided Awareness in the Split Brain
Try to explain the following result:

55
The divided brain in action
▪ Talent: people
are able to
follow two
instructions and
draw two
different shapes
simultaneously
▪ Drawback:
people can be
frustrated that
the right and left
sides do
different things 56
End. Thank you.

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