Neuroscience of memory

Question 1

What is the difference between learning and memory?

Answer 1

Learning is the neural mechanism by which a person changes his or her behaviour as a result of experiences. It helps us acquire new skills like a new language or riding a bicycle.
Memory is the mechanism for storing what is learned.

Question 2

What is the definition of learning?

Include Kandel and Kimble’s definitions.

Answer 2

Definition: Learning is the ability of previous experiences to modify the inborn reactions or create new ones.
Or It is the acquisition of knowledge or skills as a result of experiences and consequently it can alter behaviour on the basis of this experiences

• Learning is the process by which we acquire knowledge about the world (Eric Kandel, 2000)
• Learning refers to a more or less permanent change in behaviour which occurs as a result of practice (Kimble, 1961)

Overall, these definitions all have skill gain through exposure to experiences in common. It’s about changing behaviour through new skills or knowledge.

Question 3

What are the two different types of learning?

Answer 3

Associative learning (Classic conditioning, Operant conditioning)

Non-Associative learning (Habituation, Sensitization)

Question 4

What is non-associative learning? (give the two examples)

Answer 4

In this type of learning, the subject learns whether to ignore or react to a certain stimulus. It is a simple way of learning that does not need association between 2 stimuli
• Habituation – It is a gradual decrease in the response to stimulus when it is frequently repeated
• Sensitization – It is a potentiation (increase) in the response to stimulus (painful or pleasant) when it is frequently repeated

Question 5

What is habituation and give an example?

Answer 5

• It is a gradual decrease in the response to stimulus when it is frequently repeated
• It is simple and widespread – doesn’t require our conscious effort

Examples:
• A loud and unexpected sound will produce a high response the first time someone hears it, they may look towards the source of sound, have a change in heart rate, and change in blood pressure…
…However, if the sound turns to be insignificant, its repetition results in little or no response

Question 6

What was Kandel’s Aplysia research?

Answer 6

Kandel’s Aplysia research (e.g., Squire & Kandel, 1999)
Habituation of a gill withdrawal reflex

The animal has a siphon and a gill. If there is a stimulus on the siphon, the animal immediately contracts the gill. This is a simple reflex mediated by a sensory neuron and motor neuron, when there is a stimulus on the siphon, there is a contraction of the gill – it’s a very fast response. By looking at this model (the animal has very large neurons) Kandel has been able to identify the neural mechanisms for both habituation and sensitization.

Habituation has been largely studied with gill withdrawal reflex. Repeated stimulus results in long lasting habituation, even for several weeks.

Question 7

Explain Kandel’s research on habituation of a gill withdrawal reflex.

Answer 7

The stimulus is placed on the siphon. The siphon is innervated with a sensory neuron which is immediately connected with the motor neuron. The motor neuron can change the motor response of the gill causing a retraction. The sensory neuron is also connected with interneurons that allow the modulation of the behaviour. These interneurons can be excitatory or inhibitory – the activation of the interneuron may change the response of the motor neuron. In function of the response, the motor neuron can enhance or diminish the response.

Each spike shows an action potential, the rounded shape shows the activity that is mediated by the interneuron. If there is a stimulus at the level of the siphon, the first action potential is at the level of the sensory neuron. If the activation of the interneuron is excitatory, it can increase the synaptic potential which triggers another action potential in the motor neuron which causes the retraction of the gill. (this is what happens under normal circumstances).

Under the habituation condition, there is still an action potential at the level of the sensory neuron which is transmitted to the interneuron. But because of the frequency of the stimulus, the modulation that occurs with the interneuron leads to a decrease in action potential and decrease in synaptic potential. There is no action potential at the level of the motor neuron. Therefore, the motor neuron is not activated and there’s no retraction of the gill.

Question 8

Explain the features of sensitisation?

Answer 8

• It is a potentiation (increase) in the response to stimulus (painful or pleasant) when it is frequently repeated
• = heightened awareness/responsiveness to a stimulus or class of stimuli for a period of time.
• It is simple and widespread (widespread means it’s very common and we don’t have to put very much effort into it)
• Makes us aware and responsive to stimuli that are potentially dangerous. Prepares us to react to the external environment.

Question 9

Give an example of sensitisation?

Answer 9

• One normally ignores dogs by habituation, but if he is bitten, he will become more attentive and develop aversion reaction to them for long time
• Stimulus specific: One who is bitten by dogs will not be afraid of cats!

Question 10

Explain Kandel’s research on sensitization of a gill withdrawal reflex.

Answer 10

The stimulus is applied on the siphon is connected with a sensory neuron which is interconnected to a motor neuron which makes the retraction happen at the level of the gill.

Another stimulus is applied at the tail. The tail is connected with a sensory neuron which is interconnected with an interneuron which communicates with a motor neuron which plays a key role with the gill.

Before sensitization, there is a flow of information from the siphon and the first sensory neurons. This leads to action potentials, synaptic potentials, motor neuron potential and retraction. However, if there is an activation at the tail, the interneuron has a strong connection to the motor neuron which enhances the signal. The sensitized circuit shows a higher flow of information, an enhancement in the response and therefore an enhancement in the motor response. The retraction is more enhanced and faster.

Question 11

What are the four key players in sensitization?

Answer 11

The four key players are the sensory neuron at the level of the siphon, the motor neuron (which connects the siphon to the gill). A sensory neuron from the tail and an interneuron that connects the sensory neuron of the tail and the motor neuron. The activity of this interneuron can shape the behaviour.

Question 12

Explain the differences between habituation and sensitization?

Answer 12

Habituation:
• Specific to particular stimulus and response
• Results in decreased response magnitude
• Specific to a particular brain circuit
• Occurs after repetition of a variety of types of stimuli
• Exhibited in both short-term and long-term

Sensitization
• General to a variety of stimuli and responses
• Results in increased response magnitude
• Heightens responses responses in many circuits
• Occurs only after emotional stimuli (e.g., has to be painful/unpleasant)
• Normally lasts only for a short period

Question 13

What is associative learning?

Answer 13

In this type of learning, the subject learns about the relationship that can associate one stimulus to another. It is a conditioned process which results in the formation of learned responses called conditioned reflexes.

Conditioned reflex is an automatic response to a stimulus (conditioned stimulus) which did not previously evoke response acquired by repeatedly associating this stimulus with another stimulus (unconditioned stimulus).

Question 14

Explain how classic conditioning was discovered?

Answer 14

• This type of conditioned reflexes was 1st described by Pavlov (Russian Physiologist)
• He noticed that his experimental dogs salivate just on seeing the animal housekeeper who used to feed…
• Some sort of association had developed in the brains of these animals between visual stimuli related to seeing the housekeeper (conditioned stimulus) and food ingestion (unconditioned stimulus for salivation when food is placed in mouth)

Question 15

Explain the four different phases in classic conditioning?

Answer 15

Four different phases: an unconditioned stimulus producing an unconditioned response (food causing saliva). A neutral stimulus which causes no response (sound produces no reaction from the dog). During conditioning the two stimuli are presented around the same time which leads to an unconditioned response (the sound and food are presented). Lastly, after the neutral stimulus is conditioned, it produces a response (sound leads to dog salivating).

Question 16

Explain what happens in classic conditioning?

Answer 16

Usually, we have a direct connection from the unconditioned stimulus with the response (e.g., salivating after food). The neutral stimulus produces no reaction. But after conditioning, there is likely to be a change in the connectivity of the brain areas, creating a pattern of response. The change in the level of connectivity creates new associations.

Question 17

What is operant conditioning?

Answer 17

This type of conditioning requires a reward or punishment.

• In this type of conditioning the subject is taught to perform some voluntary action in response to a particular stimulus (visual or sound stimulus) that alert him to perform the learned action in order to obtain reward to avoid punishment.
• Alerting signal acts as conditioned stimulus whereas pleasant or unpleasant event that follow performance of learned response represents unconditioned stimulus.

Question 18

Explain an example of operant conditioning with a rat in a maze.

Answer 18

In this type of operant conditioning, the modulation of behaviour is driven by reinforcement or punishment. The animal is free to go around the maze, it can choose to go right or left. During the conditioning, there is either reinforcement (reward of food) or punishment (electric shock). The association between the reward/punishment can dramatically change behaviour. If the animal is rewarded, it will go in the same direction in order to get the same response. However, if the animal is punished with a shock, it will go in the other direction.

Question 19

State and explain Kandels definition of memory

Answer 19

Definition: Memory is the process by which that knowledge of the world is encoded, stored, and later retrieved (Kandel, 2000)
It is the ability of the brain to store information and recall it at later time

Question 20

What are the three stages of memory?

Answer 20

Memory is a phase of learning
Memory has three stages:
1. acquiring, wherein one masters a new activity . . . or memorizes verbal material . .

2. retaining the new acquisition for a period of time
3. remembering, which enables one to reproduce the learned act or memorized material (enables recall).
   (encoding, storing and retrieving information)

Question 21

What is meant by memory processes?

Answer 21

Memory is an information processing system like a computer.

It is a set of processes used to encode, store and retrieve information over different periods of time.

Question 22

What are the three main processes in memory?

Answer 22

1. Encoding: involves the input of information into the memory system.
2. Storage: is the retention of the encoded information.
3. Retrieval: is getting the information out of memory and back into awareness.

Question 23

Explain the simple model for memory?

Answer 23

Three main modules: the sensory information that reaches our brain and our short-term memory or long-term memory. The two key mechanisms that happen between the short- and long-term memory are consolidation and rehearsal. Consolidation is needed, for information in the short-term memory to become long term. Rehearsal is what allows us to keep memory in our working short-term memory.

Question 24

What is consolidation?

Answer 24

Consolidation: Process by which short-term memories are converted into long-term memories. (If consolidation doesn’t happen, short-term memories cannot be stored in long-term memory.

Question 25

What is the difference between long and short term memory?

Answer 25

Short-term Memory: Immediate memory for events, which may or may not be consolidated into long-term memory.
Long-term memory: Relatively stable memory of events that occurred in the more distant past.

Question 26

What are the crucial areas involved in memory processing?

Answer 26

• Limbic system: controls emotions and instinctive behaviour (includes the hippocampus and parts of the cortex)
• Thalamus: receives sensory and limbic information and sends to cerebral cortex (thalamus is the sensory relay)
• Hypothalamus: monitors certain activities and controls body’s internal clock (e.g., how much sleep we’ve had can be relevant to the way we learn)
• Hippocampus: where short-term memories are converted to long-term memories

Question 27

What holds memories?

Answer 27

Networks of neurons hold memories. There’s a lot of communication between different brain areas to encode, store and retrieve a memory.

“Memory consolidation involves interactions among neural systems as well as cellular changes within specific systems, and that the amygdala is critical for modulating consolidation in other brain regions” McGAUGH 2020

Question 28

What brain regions are involved in the consolidation of memory?

Answer 28

Consolidation of memory – involves the hippocampus but the hippocampal system does not store long-term memory.

Question 29

What brain regions are involved in the storage of memory?

Answer 29

Storage – occurs in the cerebral cortex.

Question 30

What brain regions are involved in recalling?

Answer 30

Recalling – prefrontal cortex and parahippocampal cortex in both hemispheres are activated.

Question 31

What is the importance of the hippocampus in memory?

Answer 31

• Important for formation of new episodic memories
• Important for encoding perceptual (sensory related) aspects of memories
• Novel events, places, and stimuli (crucial in special navigation)
• Important for declarative memory (knowledge related memory/verbal memory)

Question 32

Where is the hippocampus located?

Answer 32

Part of medial temporal lobe and interconnected with many key regions (amygdala, hypothalamus, nucleus acumbens, frontal lobe & pre-frontal. cortex)

Question 33

What is amnesia?

Answer 33

Amnesia is a severe impairment of memory, usually as a result of accident or disease

Question 34

What is retrograde amnesia?

Answer 34

Retrograde amnesia is a form of amnesia where someone is unable to recall events that occurred before the development of the amnesia, even though they may be able to encode and memorize new things that occur after the onset.

Question 35

What is anterograde amnesia?

Answer 35

Anterograde amnesia is a form of amnesia where someone is unable to create new memories after the event. It might be associated with the inability to recall the recent past. The long-term memories from before the event remain intact.

Question 36

Who is Patient H.M. (Henry Molaison)?

Answer 36

Most studied person in psychology!
Epilepsy began when he was 10 years old, and progressed to become intractable, so at the age of 27, in 1953, he had bilateral medial temporal lobe resections (they removed some of the medial temporal lobe in the right and left hemisphere)
The epilepsy got better but there were other behavioural consequences of this invasive surgery. He became severely amnesic with almost no other neurologic deficits:
• Recall events from childhood
• Can engage in conversations
• Good semantic memory
• Cannot recall events that have just happened
• Cannot recall any new facts
• Cannot remember new faces
Showed a clear dissociation between fully intact perception and cognition versus severely impaired memory

Question 37

What is HM’s impairment?

Answer 37

1. Anterograde Amnesia for declarative memory: fact, events, people.
2. No concept of amount of time that has passed.
3. Still shows procedural memory: new tasks. (could perform some tasks if they didn’t include facts, events or people)
4. Some implicit memory: realizes that his parents have died.
   HM contributes to the current understanding of memory model

Question 38

What did we learn from HM?

Answer 38

We know that there is a functional characteristic of memory. There’s a distinction between declarative and nondeclarative memories. Non-declarative memory doesn’t seem to depend on the hippocampal formation while declarative memory seems to be mainly related to the hippocampal formation.
Learning and memory involve different processes.

Question 39

What are declarative memories?

Answer 39

Declarative Memories: memory that can be verbally expressed, such as memory for events, facts, or specific stimuli; this is impaired with anterograde amnesia.

Question 40

What are nondeclarative memories?

Answer 40

Nondeclarative Memories: memory whose formation does not depend on the hippocampal formation; a collective term for perceptual, stimulus-response, and motor memory; not affected by anterograde amnesia; these control behaviour; cannot always be described in words. (non-verbal memory formation, it’s about being ready to perform a new task and learning/memorising how to do it.)

Question 41

What is the delayed non-matching to sample task?

Answer 41

Monkeys with extensive damage to the medial temporal lobe, and thus similar to HM, are impaired in this task. In this task, the monkey is in a case and able to play with objects around. Beneath an object (the key) there is food. The monkey needs to understand that the association between the initial object and the food are not consistent. After a few minutes, the monkey is presented with two objects and the food is under a different object this time (under the bowl rather than the key). If the monkey has a lesion at the level of the medial temporal lobe, it is unable to perform the task and is unable to learn the new association between the new object and food. They will still look for the food under the original object (the key).

Question 42

What is Alzheimer’s disease?

Answer 42

Cortical, progressive dementia
Disease is associated with the development of neuro-fibrillary tangles and plaques, which make a big change in the structure of the brain.

Question 43

What is the difference between a healthy brain and the brain Alzheimer’s disease?

Answer 43

In the healthy brain, the brain matter is compact whereas the brain with Alzheimer’s disease is much more different, it’s shrinking, the structure is looser and has bigger ventricles. The changes are mainly at the level of the medial temporal lobe.

Question 44

What are the symptoms of Alzheimer’s disease?

Answer 44

Signs of AD are first noticed in the entorhinal cortex, then in the hippocampus.
Affected regions begin to shrink as nerve cells die.
Changes can begin 10-20 years before symptoms appear.
Memory loss is the first sign of AD.

Question 45

What happens to the structure of the brain when a patient has Alzheimer’s disease?

Answer 45

• The cortex shrivels up, damaging areas involved in thinking, planning and remembering.
• Ventricles (fluid-filled spaces within the brain) grow larger.
• Shrinkage is especially severe in the hippocampus, an area of the cortex that plays a key role in formation of new memories.