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Transcript 
Making Things Happen
Simple Motor Control
How Your Brain Works - Week 6
Dr. Jan Schnupp
[email protected]
HowYourBrainWorks.net
“Efferents and Effectors”
• “Efferent” nerves carry impulses “away” from the
central nervous system.
• Eventually they have to end either in muscles or
in glands.
• Physiologists distinguish 3 types of muscle:
“smooth”, “cardiac” and “striate” (or skeletal”)
Skeletal Muscle
• There are ca 640 skeletal muscles in a human body
Nervous Control of Skeletal Muscle
Motor Cortex
Basal Ganglia
Cerebellum
Spinal Cord
Muscle
muscle fibres
axons
Muscle
Fibre
Structure
muscle
Organisation of Muscle Fibres
(actin)
(myosin)
Ca++ exposes Myosin Binding Sites
The Myosin Cycle
1
4
2
3
1.Myosin binds to
actin.
2.Myosin head
bends backward,
releasing ADP and
pulling itself
forward.
3.ATP binds to
myosin, causing
release from actin.
4.Myosin uses
energy from ATP
hydrolysis to
stretch itself,
ready to undergo
new binding and
pulling cycle.
Motor
Units
Muscle Spindles
The Stretch Reflex
Muscles tend to be arranged in pairs
• Muscles can only contract.
• If one muscle bends a limb (the “flexor”) then there must be another
muscle to stretch it (the “extensor”).
• Muscles are therefore typically arranged in agonist-antagonist pairs.
Spinal Cord
Antagonist
Circuits
Matthews “Neurobiology” Figure 8-3
Postural
support
through
spinal
reflexes
Spinal Pattern Generators
Spinal cord
pattern
generators
Headless
Chicken
• Warning: some viewers may find the content
of this video clip distressing.
Break
Motor Related Areas of Cortex
Frontal Eye
Fields
Supplementary
Motor Area
Primary Motor
Cortex
Somatosensory
Cortex
Broca’s Area
Premotor Area
Penfield’s
Homunculi
The Corticospinal Tract
Motion Direction Sensitivity in
Monkey Primary Motor Cortex
• Georgopoulos et al, Science 1986
Silicon Array Electrodes
Primate moving robot arm
Human Primate Matthew Nagel
What about “Higher Order” Motor
Cortex?
Frontal Eye
Fields
Supplementary
Motor Area
Primary Motor
Cortex
Somatosensory
Cortex
Broca’s Area
Premotor Area
Mirror Neurons
Broca’s Area
• Broca’s aphasia is usually associated with lesion to the
left frontal cortex.
• See here the brain of Broca’s Patient, Mr Leborgne
(“TanTan”) features a large lesion in Broca’s area.
Motor Aphasia
Motor Aphasia 2
Wernicke’s Area
• Wernicke’s aphasias are often associated with
lesions at the boundary of the superior temporal
and parietal lobes on the left hemisphere.
A Patient with Wernicke’s Aphasia
• From the archives of the University of
Wisconsin
The Arcuate Fasciculus
Big fibre bundle connecting Broca’s and Wernicke’s Areas
http://www.biocfarm.unibo.it/aunsnc/pictef14.html
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