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Brain and Behavior

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Chapter 3 Brain and Behavior Take Home Test! Occipital: Back of brain; vision center Parietal: Just above occipital; bodily sensations such as touch, pain, and ... – PowerPoint PPT presentation

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Title: Brain and Behavior


1
Chapter 3
  • Brain and Behavior

2
Key Questions
  • How do nerve cells operate and communicate?
  • What are the functions of major parts of the
    nervous systems?
  • How is the brain organized and what do its higher
    structure do?
  • Why are the brains association areas important?
    What happens when they are injured?
  • What kinds of behaviors are controlled by the
    subcortex?
  • Does the glandular system affect behavior?
  • In what ways do right-and lefthanded individuals
    differ?
  • How do biopsychologists study the brain?

3
Neuron and Its Parts
  • Neuron Individual nerve cell 100 billion in
    brain
  • Dendrites Receive messages from other neurons
  • Soma Cell body body of the neuron. Receives
    messages and sends messages down axon
  • Axon Carries information away from the cell body
  • Axon Terminals Branches that link the dendrites
    and somas of other neurons

4
Fig. 2.1 An example of a neuron, or nerve cell,
showing several of its important features. The
right foreground shows a nerve cell fiber in
cross section, and the upper left inset gives a
more realistic picture of the shape of neurons.
The nerve impulse usually travels from the
dendrites and soma to the branching ends of the
axon. The neuron shown here is a motor neuron.
Motor neurons originate in the brain or spinal
cord and send their axons to the muscles or
glands of the body.
5
Fig. 2.2 Activity in an axon can be measured by
placing electrical probes inside and outside the
axon. (The scale is exaggerated here. Such
measurements require ultra-small electrodes, as
described later in this chapter.) At rest, the
inside of an axon is about 60 to 70 millivolts,
compared with the outside. Electrochemical
changes in a nerve cell generate an action
potential. When positively charged sodium ions
(Na) rush into the cell, its interior briefly
becomes positive. This is the action potential.
After the action potential, an outward flow of
positive potassium ions (K) restores the
negative charge inside the axon. (See Figure 2.3
for further explanation.)
6
Fig. 2.5 A highly magnified view of the synapse
shown in Fig. 2.1. Neurotransmitters are stored
in tiny sacs called synaptic vesicles. When a
nerve impulse arrives at an axon terminal, the
vesicles move to the surface and release
neurotransmitters. These transmitter molecules
cross the synaptic gap to affect the next neuron.
The size of the gap is exaggerated here it is
actually only about one millionth of an inch.
Transmitter molecules vary in their effects Some
excite the next neuron and some inhibit its
activity.
7
The Nerve Impulse
  • Resting Potential Electrical charge of an
    inactive neuron
  • Threshold Trigger point for a neurons firing
  • Action Potential Nerve impulse
  • Ion Channels Axon membrane has these tiny holes
    or tunnels
  • Negative After-Potential When a neuron is less
    willing to fire

8
Fig. 2.3 The inside of an axon normally has a
negative electrical charge. The fluid surrounding
an axon is normally positive. As an action
potential passes along the axon, these charges
reverse, so that the
interior of the axon
briefly becomes positive.
9
Fig. 2.4 Cross-sectional views of an axon. The
right end of the top axon is at rest, with a
negatively charged interior. An action potential
begins when the ion channels open and sodium ions
(Na) enter the axon. In this drawing the action
potential would travel rapidly along the axon,
from left to right. In the lower axon the action
potential has moved to the right. After it
passes, potassium ions (K) flow out of the axon.
This quickly renews the negative charge inside
the axon, so it can fire again. Sodium ions that
enter the axon during an action potential are
pumped back out more slowly. Their removal
restores the original resting potential.
10
Animation Neuron Neural Impulse
  • Animation

11
Synapses and Neurotransmitters
  • Synapse The microscopic space between two
    neurons, over with messages pass
  • Neurotransmitters Chemicals that alter activity
    in neurons brain chemicals
  • Acetylcholine Activates muscles
  • Dopamine Muscle control
  • Serotonin Mood and appetite control
  • Messages from one neuron to another pass over a
    microscopic gap called a synapse
  • Receptor Site Areas on the surface of neurons
    and other cells that are sensitive to
    neurotransmitters

12
Animation Synaptic Transmission
  • Animation

13
Neural Regulators
  • Neuropeptides Regulate activity of other neurons
  • Enkephalins Relieve pain and stress similar to
    endorphins
  • Endorphins Released by pituitary gland also
    help to relieve pain
  • Placebos raise endorphin levels

14
The Nervous System- Wired for Action
  • Nerves and Neurons
  • Nerves Large bundles of axons and dendrites
  • Myelin Fatty layer that coats some axons
  • Multiple Sclerosis (MS) occurs when myelin layer
    is destroyed numbness, weakness, and paralysis
    occur
  • Neurilemma Thin layer of cells wrapped around
    axons outside brain and spinal cord forms a
    tunnel that damaged fibers follow as they repair
    themselves

15
Brain Grafts and Nerve Regeneration
  • Transplanting brain tissue

16
The Nervous System
  • Central Nervous System (CNS) Brain and spinal
    cord
  • Peripheral Nervous System All parts of the
    nervous system outside of the brain and spinal
    cord
  • Somatic System Carries messages to and from
    skeletal muscles and sense organs controls
    voluntary behavior
  • Autonomic System Serves internal organs and
    glands controls automatic functions such as
    heart rate and blood pressure

17
Two Divisions of the Autonomic System
  • Sympathetic Arouses body emergency system
  • Parasympathetic Quiets body most active after
    an emotional event

18
Fig. 3-9 (a) Central and peripheral nervous
systems. (b) Spinal nerves, cranial nerves, and
the autonomic nervous system.
19
Fig. 3-10 Subparts of the nervous system.
20
Fig. 3-11 Sympathetic and parasympathetic
branches of the autonomic nervous system.
21
The Spinal Cord
  • White matter Areas where myelin is present
  • Spinal Nerves 31 of them carry sensory and
    motor messages to and from the spinal cord
  • Cranial Nerves 12 pairs that leave the brain
    directly also work to communicate messages

22
How is the Spinal Cord Related to Behavior?
  • Reflex Arc Simplest behavioral pattern occurs
    when a stimulus provokes an automatic response
  • Sensory Neuron Nerve cell that carries messages
    from the senses toward the CNS
  • Connector Neuron Nerve cell that links two
    others
  • Motor Neuron Cell that carries commands from the
    CNS to muscles and glands
  • Effector Cells Cells capable of producing a
    response

23
Fig. 3-12 A simple sensory-motor (reflex) arc. A
simple reflex is set in motion by a stimulus to
the skin (or other part of the body). The nerve
impulse travels to the spinal cord and then back
out to a muscle, which contracts. Reflexes
provide an automatic protective device for the
body.
24
3-14 In the images you see here, red, orange, and
yellow indicate high consumption of glucose
green, blue, and pink show areas of low glucose
use. The PET scan of the brain on the left shows
that a man who solved 11 out of 36 reasoning
problems burned more glucose than the man on the
right, who solved 33.
25
Brain Mapping
  • Read article from CNN

26
Project
27
Cerebral Cortex
  • Cerebral Cortex Outer layer of the cerebrum
    contains 70 of neurons in CNS
  • Cerebrum Two large hemispheres that cover upper
    part of the brain
  • Corticalization Increase in size and wrinkling
    of the cortex

28
Split Brains
  • Cerebral Hemispheres Right and left halves of
    the cerebrum
  • Corpus Callosum Bundle of fibers connecting
    cerebral hemispheres
  • Corpus Callosum is cut done to control severe
    epilepsy (seizure disorder)
  • Result The person now has two brains in one body
  • This operation is rare and is often used as a
    last resort

29
Figure 3-15 Corpus Callosum
30
Fig. 3-16 Basic nerve pathways of vision. Notice
that the left portion of each eye connects only
to the left half of the brain likewise, the
right portion of each eye connects to the right
brain. When the corpus callosum is cut, a split
brain results. Then visual information can be
directed to one hemisphere or the other by
flashing it in the right or left visual field as
the person stares straight ahead.
31
Right Brain/Left Brain
  • About 95 percent of our left brain is used for
    language
  • Left hemisphere better at math, judging time and
    rhythm, and coordinating order of complex
    movements
  • Processes information sequentially and is
    involved with analysis
  • Right hemisphere good at perceptual skills, and
    at expressing and detecting others emotions
  • Processes information simultaneously and
    holistically

32
Fig. 3-17 If a circle is flashed to the left
brain and a split-brain patient is asked to say
what she or he saw, the circle is easily named.
The person can also pick out the circle by
touching shapes with the right hand, out of sight
under a tabletop (shown semi-transparent in the
drawing). However, the left hand will be unable
to identify the shape. If a triangle is flashed
to the right brain, the person cannot say what
was seen (speech is controlled by the left
hemisphere). The person will also be unable to
identify the correct shape by touch with the
right hand. Now, however, the left hand will have
no difficulty picking out the hidden triangle.
Separate testing of each hemisphere reveals
distinct specializations, as listed above.
33
Corpus Callosum Cut
  • Video

34
Central Cortex Lobes
  • Occipital Back of brain vision center
  • Parietal Just above occipital bodily sensations
    such as touch, pain, and temperature
    (somatosensory area)
  • Temporal Each side of the brain auditory and
    language centers
  • Frontal Movement, sense of smell, higher mental
    functions
  • Contains motor cortex controls motor movement

35
The left and right brain have different
information processing styles. The right brain
gets the big pattern the left focuses on small
details.
36
Brain Parts
  • Worksheet

37
When the Brain Fails to Function Properly
  • Association Cortex Combine and process
    information from the five senses
  • Aphasia Language disturbance resulting from
    brain damage
  • Brocas Area Related to language and speech
    production
  • If damaged, person knows what s/he wants to say
    but cant say the words
  • Wernickes Area Related to language
    comprehension in left temporal lobe
  • If damaged, person has problems with meanings of
    words, NOT pronunciation

38
When the Brain Fails to Function Properly (cont.)
  • Agnosia Inability to identify seen objects
  • Facial Agnosia Inability to perceive familiar
    faces

39
Brain Injury
  • Brain Injury Worksheet

40
His and Her Brains
  • Read page 66

41
Hindbrain (Subcortex)
  • Immediately below cerebral hemispheres
  • Brainstem Consists mainly of medulla and
    cerebellum
  • Medulla Controls vital life functions such as
    heart rate, swallowing, and breathing
  • Pons (Bridge) Acts as a bridge between medulla
    and other structures
  • Influences sleep and arousal
  • Cerebellum Located at base of brain
  • Regulates posture, muscle tone, and muscular
    coordination

42
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43
Fig.3-22 This simplified drawing shows the main
structures of the human brain and describes some
of their most important features. (You can use
the color code in the foreground to identify
which areas are part of the forebrain, midbrain,
and hindbrain.)
44
Hindbrain (Subcortex) Reticular Formation (RF)
  • Reticular Formation (RF) Inside medulla and
    brainstem
  • Associated with alertness, attention, and some
    reflexes (breathing, coughing, sneezing,
    vomiting)
  • Reticular Activating System (RAS) Part of RF
    that keeps it active and alert
  • RAS acts like the brains alarm clock
  • Activates and arouses cerebral cortex

45
Forebrain
  • Structures are part of Limbic System System
    within forebrain closely linked to emotional
    response and motivating behavior
  • Thalamus Relays sensory information on the way
    to the cortex switchboard
  • Hypothalamus Regulates emotional behaviors and
    motives (e.g., sex, hunger, rage, hormone
    release)
  • Amygdala Associated with fear responses
  • Hippocampus Associated with storing permanent
    memories helps us navigate through space
  • Electrical stimulation of the brain (ESB) Is the
    direct electrical stimulation and activation of
    the brain tissue

46
Fig. 3-23 Parts of the limbic system are shown in
this highly simplified drawing. Although only one
side is shown, the hippocampus and the amygdala
extend out into the temporal lobes at each side
of the brain. The limbic system is a sort of
primitive core of the brain strongly associated
with emotion.
47
The Brain in Perspective- Beyond the Biocomputer
  • Endocrine system Made up of glands that pour
    chemicals directly into the bloodstream or lymph
    system
  • Hormones Chemicals in blood that are carried
    throughout the body that affect internal
    activities and behavior.

48
Endocrine System
  • Glands that pour chemicals (hormones) directly
    into the bloodstream or lymph system
  • Pituitary Gland Master gland that regulates
    growth via growth hormone
  • Too little means person will be smaller than
    average
  • Hypopituitary Dwarfs As adults, perfectly
    proportioned but tiny
  • Treatable by using human or synthetic growth
    hormone will add a few inches
  • Treatment is long and expensive

49
Endocrine System (cont.)
  • Too much growth hormone leads to giantism
  • Excessive body growth
  • Acromegaly Enlargement of arms, hands, feet, and
    facial bones
  • Caused by too much growth hormone secreted late
    in growth period
  • Andre the Giant
  • Pituitary also governs functioning of other
    glands, especially thyroid, adrenals, and gonads

50
  • PRINCESS BRIDE

51
Endocrine System (cont.)
  • Pineal Gland Regulates body rhythms and sleep
    cycles.
  • Releases hormone melatonin, which responds to
    daily variations in light
  • Thyroid In neck regulates metabolism
  • Hyperthyroidism Overactive thyroid person tends
    to be thin, tense, excitable, nervous
  • Hypothyroidism Underactive thyroid person tends
    to be inactive, sleepy, slow, obese

52
The Adrenal Glands
  • Adrenals Arouse body, regulate salt balance,
    adjust body to stress, regulate sexual
    functioning located on top of kidneys
  • Releases epinephrine and norepinephrine (also
    known as adrenaline and noradrenaline)
  • Epinephrine arouses body is associated with fear
  • Norepinephrine arouses body is linked with anger

53
The Adrenal Glands (cont.)
  • Adrenal Medulla Inner core of adrenals source
    of epinephrine and norepinephrine
  • Adrenal Cortex Produces hormones known as
    corticoids
  • Regulate salt balance
  • Deficiency in some types will cause powerful salt
    cravings
  • Also help body to adjust to stress
  • Secondary source of sex hormones
  • Oversecretion of adrenal sex hormones can cause
    virilism exaggerated male characteristics
    (Bearded woman)
  • May also cause premature puberty if oversecretion
    occurs early in life

54
Neurogenesis and Plasticity
  • Neurogenesis Production of new brain cells
  • Plasticity Brains ability to change its
    structure and functions

55
Right or left?
  • Read pages 75-78

56
Fig. 2.31 Neuroscientists are searching for ways
to repair damage caused by strokes and other
brain injuries. One promising technique involves
growing neurons in the laboratory and injecting
them into the brain. These immature cells are
placed near damaged areas, where they can link up
with healthy neurons. The technique has proved
successful in animals and is now under study in
humans.
57
Fig. 2.27 A direct brain-computer link may
provide a way of communicating for people who are
paralyzed and unable to speak. Activity in the
patients motor cortex is detected by an
implanted electrode. The signal is then amplified
and transmitted to a nearby computer. By thinking
in certain ways, patients can move an on-screen
cursor. This allows them to spell out words or
select from a list of messages, such as I am
thirsty.
58
Researching the Brain
  • Ablation Surgical removal of parts of the brain
  • Deep Lesioning A thin wire electrode is lowered
    into a specific area inside the brain
    Electrical current is then used to destroy a
    small amount of brain tissue
  • Electrical Stimulation of the Brain (ESB) When
    an electrode is used to activate target areas in
    the brain
  • Electroencephalograph (EEG) Detects, amplifies,
    and records electrical activity in the brain

59
Researching the Brain (cont.)
  • Computed Tomographic Scanning (CT)
    Computer-enhanced X-ray of the brain or body
  • Magnetic Resonance Imaging (MRI) Uses a strong
    magnetic field, not an X-ray, to produce an image
    of the bodys interior
  • Functional MRI MRI that makes brain activity
    visible
  • Positron Emission Tomography (PET)
    Computer-generated color image of brain activity,
    based on glucose consumption in the brain

60
An MRI scan of the brain.
61
PET scans.
62
The bright spots you see here were created by a
PET scan. However, here they have been placed
over an MRI scan so that the brains anatomy is
visible. The three bright spots are areas in the
left brain related to language. The spot on the
right is active during reading. The top-middle
area is connected with speech. The area to the
left, in the frontal lobe is linked with thinking
about a words meaning (Montgomery, 1989).
63
Fig. 2.10 The functions of brain structures are
explored by selectively activating or removing
them. Brain research is often based on electrical
stimulation, but chemical stimulation is also
used at times.
64
Fig. 2.11 An EEG recording.
65
Brain Drain
  • Great Brain Drain worksheet

66
Take Home Test!
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