introduction to neurons types, structure, operation cortical columns ling 411 – 02
TRANSCRIPT
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Introduction to Neurons
Types, Structure, OperationCortical Columns
Ling 411 – 02
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Coronal Section
Gray matter
White matter
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Schematic of coronal section
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Coronal section
Gray matter
White matter
Sylvian fissure
Insula
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Some brain quantities
The cortex accounts for 60-65% of the volume of the brain• But has only a minority of the total neurons of the brain
Surface of the cortex – about 2600 sq cm• That is, about 400 sq inches
Weight of cortex – • Range: 1,130 – 1,610 grams• Average: 1,370 grams
Brain mass nears adult size by age six yrs• Female brain grows faster than male during 1st 4 yrs
Thickness of cortex – (inf. from Mountcastle 1998)
• Range: 1.4 – 4.0 mm• Average: 2.87 mm
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The brain operates by means of connections
Neurons do not store information Rather they operate by emitting activation
•To other neurons to which they connect Via synapses
•Proportionate to activation being received From other neurons via synapses
Therefore, a neuron does what it does by virtue of its connections to other neurons •The first big secret to understanding how the
brain operates
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Therefore, the linguistic system operates by means of connections
A person’s linguistic system is largely represented in his/her cerebral cortex
The cerebral cortex is a neural network A linguistic system is therefore
represented as a neural network Therefore, any component of the
system does what it does by virtue of its connections to other components•The first big secret to understanding how
the linguistic system operates
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Cortical Neurons
Cells, but quite different from other cells•Multiple fibers, branching in tree-like
structures Input fibers: Dendrites Output fibers: Axons
•Great variation in length of fibers Short ones — less than one millimeter Long ones — several centimeters
•Only the pyramidal cells have such long ones
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Communicating with other cells
Method one:•Fibers projecting from cell body
Branching into multiple fibers Input fibers – dendrites
•Allow cell to receive from multiple sources
Output fiber – axon•Allows cell to send to multiple destinations
Method two:•Circulation
Circulatory system•Endocrine system
Lymphatic system
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Some quantities relating to neurons
Number of neurons• In cortex: ca. 27 billion (Mountcastle)
•Beneath 1 sq mm of cortical surface: 113,000
Synapses•440 million synaptic terminals/mm3 in visual
area
•Each neuron receives avg 3,400 synaptic terminals
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Formation of neurons in the fetus
500,000 neurons are formed per minute in the developing fetus (from a program on PBS, 2002)
By 24 weeks, the brain has most of its neurons
Checking:•500,000 per minute
•30 million per hour
•720 million per day
•5 billion per week
•96 billion in 24 weeks
•Checks!
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Brains of the young and very young
At about 7 months, a child can recognize most sound distinctions of the world’s languages
By 11 months the child recognizes only those of the language of its environment
At 20 months the left hemisphere is favored for most newly acquired linguistic information
Brain mass nears adult size by age six yrs•Female brain grows faster than male during 1st 4
yrs
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Neuronal fibers
Estimated average 10 cm of fibers per neuron•A conservative estimate
•Times 27 billion neurons in cortex
•Amounts to 2.7 billion meters of neural fibers in cortex (27 billion times 10 cm)
•Or 2.7 million kilometers – about 1.68 million miles Enough to encircle the world 68 times Enough to go to the moon 7 times
Big lesson: Connectivity rules!
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Types of cortical neurons
Cells with excitatory output connections•Pyramidal cells (about 70% of all cortical
neurons)
•Spiny stellate cells
Cells with inhibitory output connections•Large basket cells (two subtypes)
•Columnar basket cells
•Double bouquet cells
•Chandelier cells
•Other
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Pyramidal neurons
About 70% of cortical neurons are of this type
Microelectronic probe
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Structure of pyramidal neuron
Apical dendrite
Cell body
Axon
Myelin
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Synapses
The connections between neurons•Neurotransmitters cross from pre-synaptic
terminal to post-synaptic terminal
•Synaptic cleft – about 20 nanometers
40,000 synapses per neuron (4x104) •And 27 billion neurons
i.e., 27,000,000,000 = 27x109
•1.1x1015 (over 1 quadrillion) synapses per cortex (4x104 x 2.7x1010 = 11x1014)
(Big lesson: Connectivity rules!)
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Diagram of synaptic structure
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Release of neurotransmitter
Presynaptic terminal releases neurotransmitter
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Seven steps of neuro- transmitter
action
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Connections to other neurons
Excitatory•Pyramidal cells and spiny stellate cells•Output terminals are on dendrites or cell
bodies of other neurons •Neurotransmitter: Glutamate
Inhibitory•All other cortical neurons•Output terminals are on cell bodies or axons
of other neurons•Neurotransmitter: GABA
•GABA: gamma-aminobutyric acid
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Inhibitory connections
Axosomatic
Axoaxonal
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More on the pyramidal neuron
Dendrites
Myelin
Cell body
Axon hillock
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Integration of neural inputs
Takes place at the axon hillock Excitatory inputs are summed Inhibitory inputs are subtracted Result of this summation is the
amount of incoming activation Determines how much activation will
be transmitted along the axon (and its branches), hence to other neurons
Degree of activation is implemented as frequency of spikes
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Transmission of activation (sensory neuron)
Kandel 28
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Spread of activation
Activation moves across links•Physical reality: from neuron to
neuron
•Abstract model: from node to node
At larger scale, across multiple links• In speech production,
from meanings to their expression
•For a listener, From expression to meaning
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Another kind of neurotransmitter
Released into interneural space, has global effect – e.g. serotonin, dopamine
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Events in short time periods
Duration of one action potential: about 1 ms
Frequency of action potentials: 1–100 per sec
Rate of transmission of action potential:•1–100 mm per ms
•Faster for myelinated axons
•Faster for thicker axons
Synaptic delay: ½ – 1 ms
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Traveling the pathways of the brain
Neuron-to-neuron time in a chain (rough estimate)• Neuron 1 fires @ 100 Hz
Time for activation to reach ends of axon • 10 mm @ 10 mm/ms = 1 ms
Time to activate post-synaptic receptor – 1 ms• Neuron 2
Activation reaches firing threshold – 4 ms (??)• Hence, overall neuron-to-neuron time – ca. 6 ms
Time required for spoken identification of picture• Subject is alert and attentive • Instructions: say what animal you see as soon as you
see the picture• Picture of horse is shown to subject• Subject says “horse”• This process takes about 600 ms
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Three views of the gray matter
Different stains show different features
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Layers of the Cortex
From top to bottom, about 3 mm
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The (Mini)Column
Extends thru the six cortical layers•Three to four mm in length
•The entire thickness of the cortex is accounted for by the columns
Roughly cylindrical in shape About 30–50 m in diameter If expanded by a factor of 100
•Like a tube with diameter of 1/8 inch and length of one foot
If expanded by a factor of 8,000•Like a telephone pole with diameter
of 10 inches and length of 80 feet
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Cortical Columns
A graphic model, not an anatomical diagram From M. vanLandingham, unpublished
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Features of the cortical (mini)column
75 to 110 neurons 70% of the neurons are pyramidal The rest include
•Other excitatory neurons•Several different kinds of inhibitory
neurons For further information:
•Vernon Mountcastle, Perceptual Neuroscience (1998)
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Cortical minicolumns: Quantities
Diameter of minicolumn: 30 microns Neurons per minicolumn: 75-110 Minicolumns/mm2 of cortical surface: 1413 Minicolumns/cm2 of cortical surface:
141,300 Approximate number of minicolumns in
Wernicke’s area: 2,825,000
Estimates based on Mountcastle
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More quantities
Number of neurons in cortex: 27.4 billion
Number of minicolumns: 368 million Neurons per minicolumn: average 75-80 Neurons beneath 1 mm2 of surface:
113,000Mountcastle 96
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Cortical column connectivity
The neurons of a column are mutually interconnected a whole column is active together
•the column acts as a single functional unit
The neurons of a column are connected to:•adjacent columns – inhibitory and excitatory
connections (gray matter connections)
•distant columns, by means of long distance excitatory connections (the white matter)
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Columns and neurons
At the small scale..• each column is a little network
At a larger scale..• each column is a node of the cortical network
The cerebral cortex:• Gray matter — columns of neurons
• and connections to adjacent columns• White matter:
• Long-distance inter-column connections
N.B.: The cortex operates by means of connections!
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Quotation from Mountcastle
My general hypothesis is that the minicolumn is the smallest processing unit of the neocortex.
(165)
Vernon Mountcastle, Perceptual NeuroscienceHarvard University Press, 1998
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Long-distance cortico-cortical connections
White matter – •Long-distance inter-column connections
Example: the arcuate fasciculus•A bundle of fibers very important for
language Connects Wernicke’s area to Broca’s area
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Arcuate Fasciculus
(From: www.rice.edu/langbrain)
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Some long-distance fiber bundles
(schematic)
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Coronal Section
Grey matter
White matter
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Topology of the Gray Matter
Each hemisphere is like a thick napkin, with•Thickness varying from 2 to 4
mm (avg. 3 mm – ca. 1/8 in.)
•Area of about 1300 square centimeters (200 sq. in.)
•Subdivided into six layers
The thickness is accounted for entirely by cortical columns
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The White Matter
Provides long-distance connections between cortical columns
Consists of axons of pyramidal neurons The cell bodies of those neurons are in
the gray matter Each such axon is surrounded by a
myelin sheath, which..•Provides insulation
•Enhances conduction of nerve impulses
The white matter is white because that is the color of myelin
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Major features of cortical anatomy
Each hemisphere appears to be a three-dimensional structure, but..
Each hemisphere is very thin and very broad
The grooves – sulci – are there because the cortex is “crumpled” so it will fit inside the skull
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Topological essence of cortical structure
Two dimensions for the array of the columns
Viewed this way the cortex is an array – a two-dimensional structure – of interconnected columns
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Dimensionality of the cortex
Two dimensions: The array of nodes The third dimension:
•The length (depth) of each column (through the six cortical layers)
•The cortico-cortical connections (white matter)
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Functional layout of the two dimensions
Primary areas: •Visual (occipital)
•Auditory (temporal)
•Somatosensory (parietal)
•Motor (frontal)
Secondary areas Association areas Executive area, in prefrontal
lobe
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Primary and other areas
Primary Somato-sensory Area Primary
Motor Area
Primary AuditoryArea
PrimaryVisual Area
All other areas are secondary, association,or executive areas
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Sequence of development in the cortex
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Large-scale hierarchy in the cortex
At ‘bottom’, the primary systems•Somatosensory, visual, auditory, motor
In ‘middle layers’ the association areas and ‘higher-level’ motor areas
At ‘top’ (prefrontal cortex) the supra-modal association area •Frontal lobe comprises 1/3 of the area of the
cortex•Prefrontal cortex is nearly 1/4 of the whole
cortex•Prefrontal functions
Planning, anticipation, mental rehearsal, prediction, judgment, problem solving
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