Week 4 PDF: Brain Function

Summary

This document is a collection of notes on brain function, including information on different regions and their related functions. It contains diagrams and illustrations of the brain and related concepts.

Full Transcript

THE BRAIN ~2% of body weight;
receives ~20% of blood
pumped from the heart
consumes ~20% of body’s
energy

100 billion neurons
1,000,000 billion synapses
(connections between neurons)

101,000,000 possible circuits
Cerebrum
Cerebral Hemispheres
Forebrain

Cerebellum
Hind brain

Brainstem

2
 Longitudinal Fissure
Cerebrum (inter-hemispheric fissure)

(Cerebral Hemispheres)
Two Hemispheres, divided by
Longitudinal Fissure or
Inter-Hemispheric Fissure

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Intelligence:

Size is not
everything

Apart from size,
what is different?
 Cerebral Cortex
The outermost surface layer of the cerebrum
= Grey matter

Cerebral
Cortex

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Cortex = Grey Matter
Surface of the brain
2 to 4 mm thick

Contains the cell bodies of the
brain’s neurons

Highly folded to maximize
surface area. i.e. maximize
amount of cortex that can fit
inside skull

White matter underneath the
grey matter is all the “wiring”
i.e. axons of the neurons,
connecting to the spinal cord
and to other areas of the cortex
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1
2
Frontal Lobe

Executive Functions:
– reasoning, planning, problem-solving
– Inhibitory control
– Working memory

Motor functions
– Premotor cortex – motor planning
– Primary motor cortex – execution

Speech production (Broca’s area)

3
Parietal Lobe

Primary Somatosensory Cortex
– Perception of touch

Sense of space and locations
– Gives sense of stable world around us
relative to our body position

Spatial attention
– Directing attention and eye-movements
to explore visual world

Linking vision to action
– Represents spatial location of objects
around us for guiding actions

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Occipital Lobe

Posterior part of the brain,
inferior to Parietal Lobe

Primary Visual Cortex (V1)
– All visual perception

Higher visual areas
– Different regions process shape,
colour, orientation, motion

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Temporal Lobe

Primary Auditory Cortex
– Perception of sound

Language Comprehension
(Wernicke’s area)

Medial Temporal Lobe:
– Limbic system
amygdala and hippocampus

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 Limbic System
Medial Temporal Lobe
Amygdala

Fear and arousal
– Responds to threat / danger
(snakes, spiders, angry/fearful faces)
– Fear / learning Phobias?

Hippocampus

Learning and Memory
– Forming new episodic memories
– Damage causes anterograde amnesia
(can’t form new memories of events)

Amygdala
= Almond Hippocampus
= Seahorse 7
Corpus Callosum
Neuron connections between the left
and right hemispheres

Allows brain communication between
hemispheres

“Split-Brain” patients – left and right
hemispheres disconnected. The two
hemispheres cannot communicate with
each other.

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9
1
 Brain
Function
(1957)

Before
MRI

2
Phineas Gage
Railway worker, Phineas
Gage, accident in 1848
Iron rod, about 1m length,
went through his head
Remained conscious
during and after accident
Damaged frontal lobes
Died 12 years later and his
skull was examined

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 Phineas Gage
Gage’s physician John Harlow reported
profound change in personality

“The equilibrium or balance, so to speak, between his
intellectual faculties and animal propensities, seems to
have been destroyed. He is fitful, irreverent, indulging at
times in the grossest profanity (which was not
previously his custom) … impatient of restraint or
advice when it conflicts with his desires …”

Changed into a man who was “no longer
Gage”

Important role of frontal lobe for executive
control of behaviour

4
 Broca’s Area – Speech Production
In 1861, Paul Broca described a
patient who was unable to speak
after damage to the left frontal lobe
(Broca’s area)

5
Broca’s Aphasia – Speech Production

Speech is slow and non-fluent
Difficulty finding appropriate
words (anomia)
Speech still carries meaning
Comprehension is (mostly)
unaffected

6
Wernicke’s Area – Language Comprehension

In 1874, Carl Wernicke suggested
that lesions to the left posterior
temporal lobe led to deficits in
language comprehension.

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Wernicke’s Aphasia – Comprehension

Unable to understand language – deficit in comprehension
Speech is fluent with normal prosody (rhythm, intonation)
Speech has no meaning, nonsense speech

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 Left Hemisphere
Broca’s and Wernicke’s area

Speech
production
Language
comprehension

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 Wilder Penfield
Stimulated the brain with electrical probes
while the patients were conscious, during
surgery for epilepsy.
1951, published maps of motor and sensory
cortices of the human brain

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 “Homunculus”

Sensory Motor

Primary Sensory cortex and Primary Motor cortex
Brain function “mapped” by electrical stimulation
Brain stimulation leads to sensation or movement (muscle twitch)
Size of area on cortex determines sensitivity or fine motor control
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 Brain
Function
(1957)

Before
MRI

12
The Brainstem

1
Autonomic Nervous System

Central Nervous System
Brain and spinal cord

Peripheral Nervous System
Somatic Nervous System
– Voluntary
– Motor and Sensory

Autonomic Nervous System
– Involuntary
– Heart-rate, respiration, sweating
– Stress, arousal, “fight-or-flight”

2
 Autonomic Nervous System
2 divisions:
Sympathetic Nervous System
– Emotional arousal, stress, fear
– “Fight or Flight” response
– Increases heart-rate, respiration,
perspiration, pupils dilate.

Parasympathetic Nervous System
– “Rest and digest”
– Lowers heart-rate, respiration
– Increases stomach, intestine
activity (digestion)
– “opposes” the sympathetic nervous
system

3
Brainstem

Medulla

Autonomic nervous system
functions

Controls heart-rate,
respiration, regulation of
blood pressure, body
temperature

Reflex centres for coughing,
sneezing, swallowing,
vomiting

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Disorders of Consciousness
Persistent Vegetative State
Severe damage to upper brain
(hemispheres and cortex)

If brainstem is not damaged,
autonomic nervous system functions
can remain

sometimes normal respiration, control
of heart rate, some face and eye
movements remain

Patients have no conscious
awareness

5
6
Disorders of Consciousness
“Locked-in” Syndrome
Amyotrophic Lateral Sclerosis (ALS) or
Motor Neuron disease
– Loss of motor neurons to spinal cord

or Brain injury (following accident)
Intact cerebrum and brainstem, but
“disconnected” from spinal cord
Normal cognitive function, vision, and
hearing, but patients cannot move
Patients may be fully conscious and
aware, but totally unresponsive

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 Disorders of Consciousness
“Locked-in” patients appear the
same as those with persistent
vegetative state
Cortex is fully functioning
What is their conscious awareness?

Functional MRI to detect brain activity
and allow some communication

“Imagine playing tennis”
“Imagine walking around your house”

https://www.youtube.com/watch?v=UGYF2xOt-zk
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Low-level to High-level function
High
Level
Cerebral Hemispheres – Cortex

Planning, reasoning, problem-solving
(frontal lobe)

Language and Perception

Brainstem

Autonomic nervous system functions
(heart-rate, respiration, blood pressure)

Low
Level
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Cerebellum and Motor Cortex

1
Cerebellum
Hind brain (latin for little brain)

Sense of balance and
co-ordination of complex
movement

Motor learning – fine
adjustment of movement
based on feedback

2
Primary Motor and Sensory Areas

“Homunculus”

Primary motor cortex
activity leads to movement
(muscle contraction)

Primary sensory cortex
activity leads to sensation

Different parts of motor
and sensory cortex map to
different parts of the body
(homunculus)

3
 “Motor Programs” for movement
Movements planned and “programmed” in the
brain before initiation, like a computer program
(theory from 1960’s)

Brain creates program just before
movement.
OR

Brain retrieves program for
learnt skilled actions
– eg signature,
tennis swing, etc

Motor Cortex
(causes movement)
Muscles to move (motor program) 4
 Feedback control of Movement
Planned actions compared with feedback from actual actions performed

Does it match? Rapidly correct action, Learn for future

Brain computes
difference between
planned action and

Vision
feedback during
performed action

Sensation
(hands on racquet)

Proprioception
(body position) 5
 Did I do that? Sense of Agency
When feedback matches predictions from planned actions

Brain automatically links
sensory events and own-
actions to infer causality

Sense that my action
caused that event

Can’t tickle yourself !!

The tickle machine
Only “tickles” when sensory
stimulus does not match
own-action
Blakemore et al., 1998, 6
Nature Neuroscience
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