57612
Descripción
Mapa Mental por n.c.wetmore, actualizado hace más de 1 año
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Creado por n.c.wetmore
hace más de 11 años
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Search For
The Engram
- Lashleys Search for the Engram
- By strengthening the CS and UCS centre in brain,
any excitation of CS flow to UCS evoking UCR
- the physical representation of
what has been learnt
- If learning depends on new or strengthened
connections between two brain areas, knife cut should
interrupt and abolish learned response.
- Rats on maze and brightness
discrimination task, made deep
cuts in locations in cerebral
cortices
- None impaired performances.
- Types of learning that he studied
didn't depend on connections
across cortex
- Types of learning that he studied
didn't depend on connections
across cortex
- None impaired performances.
- Rats on maze and brightness
discrimination task, made deep
cuts in locations in cerebral
cortices
- Does any portion of the cerebral
cortex is more important than
others for learning?
- Trained rats before or after he removed
large portions of the cortex
- Lesions impaired performance but
deficit depended more on amount
of brain damage than its location
- Learning and memory apparently didn't rely on
a single cortical area
- Learning and memory apparently didn't rely on
a single cortical area
- Lesions impaired performance but
deficit depended more on amount
of brain damage than its location
- Proposed two principles
about nervous system
- Equipotentiality
- all parts of cortex contribute equally to complex
behaviours like learning, and any part of cortex
can substitute for any other
- all parts of cortex contribute equally to complex
behaviours like learning, and any part of cortex
can substitute for any other
- mass of action
- cortex works as a whole,
more cortex is better
- cortex works as a whole,
more cortex is better
- Equipotentiality
- Trained rats before or after he removed
large portions of the cortex
- Another interpretation of findings
- Rat finding way to food attends to visual and tactile
stimuli, location of body, position of head and other
cues.
- depends on many cortical
areas, but different areas
could be contributing in
different ways
- depends on many cortical
areas, but different areas
could be contributing in
different ways
- Rat finding way to food attends to visual and tactile
stimuli, location of body, position of head and other
cues.
- By strengthening the CS and UCS centre in brain,
any excitation of CS flow to UCS evoking UCR
- Modern Search for the Engram
- Search in cerebellum
- Thompson & col studied classical conditioning of
eyelid responses in rabbits
- First tone (CS) then puff of air (UCS) to
cornea of rabbits eye
- Rabbit blinked at air puff and
not tone and later blinked at
tone also
- recorded activity in various brain cells to
find which ones changed their responses
during learning
- recorded activity in various brain cells to
find which ones changed their responses
during learning
- Rabbit blinked at air puff and
not tone and later blinked at
tone also
- First tone (CS) then puff of air (UCS) to
cornea of rabbits eye
- Thompson wanted to determine location of learning
- A<B<C<D<E<F<
- If we damage one of areas, learning will be impaired
but can't be sure that learning occurred in the
damaged area
- If we damage one of areas, learning will be impaired
but can't be sure that learning occurred in the
damaged area
- A<B<C<D<E<F<
- Thompson identified one nucleus of cerebellum
- Lateral Interpositus Nucleus (LIP
- At start, little response but as
learning proceeded, responses
increased
- Thompson (1986)
- Thompson (1986)
- When inv temp suppressed nucleus in an untrained
rabbit and presented CS and UCS, no responses
shown during training
- when LIP recovered, began to learn but learned at the same
speed as animals that had received no previous training
- while LIP suppressed, training had no effect
- while LIP suppressed, training had no effect
- when LIP recovered, began to learn but learned at the same
speed as animals that had received no previous training
- At start, little response but as
learning proceeded, responses
increased
- Lateral Interpositus Nucleus (LIP
- INV suppressed activity in red
nucleus
- midbrain motor area that receives input from the cerebellum
- R showed no responses
during training
- when recovered, R showed strong learned
responses to the tone
- Temp prevented response but
didn't prevent learning
- Learning did not require activity in the
red nucleus
- Learning did not require activity in the
red nucleus
- Temp prevented response but
didn't prevent learning
- when recovered, R showed strong learned
responses to the tone
- midbrain motor area that receives input from the cerebellum
- Search in cerebellum
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