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Implicit memory

Implicit memory. Schacter and many other researchers distinguish between implicit and explicit memory This lecture will begin by surveying some historical observations regarding implicit memory

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Implicit memory

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  1. Implicit memory • Schacter and many other researchers distinguish between implicit and explicit memory • This lecture will begin by surveying some historical observations regarding implicit memory • It will then focus on a particular type of implicit memory, habits or skills, that are mediated by the basal ganglia • Particular attention will be given to lesion studies and studies of patients with Parkinson’s disease, which is associated with impaired basal ganglia functioning

  2. Implicit memory • implicit memory • occurs when previous experiences facilitate performance on a task that does not require conscious recollection of those experiences • explicit memory • occurs when the task requires conscious recollection of past experiences

  3. Implicit memory • Historical survey • Maine de Biran proposed that after sufficient repetition a habit can be executed automatically and unconsciously without awareness of the act itself or of the previous episodes in which the habit was learned • Maine de Biran also developed a form of multiple memory system

  4. Implicit memory • Historical survey • Carpenter (1874) noted the importance of autobiographical recognition or awareness in normal memory • Neurology • Korsakoff noted that amnesic patients were affected by previously experienced events even though they were consciously unaware of these events • Claparede refusal of amnesic to shake hands after he had pricked her hand

  5. Implicit memory • Historical survey • Neurology • Schneider 1912 showed that amnesics required less information across learning trials to identify fragmented pictures

  6. Implicit memory • Historical survey • Psychiatry • Freud and Janet investigated patients suffering hysterical amnesia as a result of emotional trauma • these patients could not explicitly remember the traumatic event, but their memories of these events were expressed indirectly (implicitly) • Janet --hysterical amnesia consists of: 1. the inability of a subject to evoke memories consciously and voluntarily; and 2. Automatic, compelling, and untimely activation of these memories

  7. Implicit memory • Modern research on implicit memory • effects of subliminally encoded stimuli • several studies have shown that stimuli that are not represented in subjective awareness (consciously) are nevertheless processed to high levels by the perceptual system

  8. Implicit memory • e.g., Kunst-Wilson & Zajonc (1980) • presented geometric shapes for 1 ms; claimed it was too brief a period of time to permit its perception; subsequently tested recognition (forced choice) and preference (forced choice) • Results: recognition (RN) was at chance; Subjects preferred the previously presented geometric shape

  9. Implicit memory • e.g., Bargh & Pietromonaco (1982) • presented ‘hostile words’ and then later had participants rate a target person • results showed that explicit recognition memory of ‘hostile words’ was at chance, although ratings of the target person were more negative than those who did not receive prior exposure

  10. Implicit memory • e.g., divided attention study of Eich (1984) • auditory divided attention task • unattended channel -- presented homophones (e.g., taxi fare) • subsequently participants showed no explicit RN memory in yes/no task, but tended to spell homophones in biased direction compared to baseline performance

  11. Implicit memory • Learning and conditioning without awareness • participants learn rules or contingencies without explicit memory for them • this phenomenon was studied in multitrial learning experiments and in classical conditioning experiments

  12. Implicit memory • Implicit learning studies of Reber • subjects were presented letter strings that were organized according to rules of an artificial grammar • Reber reported that subjects could categorize these strings correctly even though they not consciously aware of the rules

  13. Implicit memory • Repetition priming effects • facilitation in processing of a stimulus as a function of recent prior exposure to the same stimulus • note: repetition priming has been observed under a wide variety of test conditions, none of which require explicit reference to a prior study episode • lexical decision (word/nonword) -- DV = latency • word identification • word stem or fragment completion (e.g., __ ss__ss__)

  14. Implicit memory • Repetition priming effects • 1. used to study nature of lexical representation • e.g., studied the effects of auditory presentation on subsequent word identification and lexical decision tasks • results showed little or no priming • e.g., morphologically similar words (e.g., seen) facilitate priming of (sees), but visually similar words do not prime each other (e.g., seen) versus (seed)

  15. Implicit memory • Repetition priming effects • 2. used to study relation of implicit to explicit memory • stimulated by studies of Warrington and Weiskrantz on amnesics • this study showed that amnesics showed excellent retention when they were asked to complete three-letter stems of recently presented words even though their yes/no recognition memory was impaired

  16. Implicit memory • Repetition priming effects • 2. used to study relation of implicit to explicit memory • several studies have shown that variations in level or type of study processing have differential effects on priming versus remembering • e.g., Jacoby & Dallas (1981) showed that answering questions about the meaning of a target word improved yes/no recognition memory relative to answering questions about presence of a letter, but that word identification was unaffected

  17. Implicit memory • Repetition priming effects • 2. used to study relation of implicit to explicit memory • modality shift • Jacoby & Dallas (1981) showed that changing from auditory (at study) to visual (at test) severely attenuated priming effects as assessed by word identification, but had little effect on yes/no recognition performance

  18. Implicit memory • Repetition priming effects • 2. used to study relation of implicit to explicit memory • other factors that have been manipulated • study-test delay--variable effects • manipulations that affect retroactive and proactive interference (and hence explicit memory) have little effect on word-stem or word fragment completion

  19. Implicit memory • Habit or skilled learning • Several lines of evidence suggest that the caudate nucleus mediates a particular type of implicit memory, habit memory or memory for skills, that are incrementally acquired • This type of memory can be dissociated from explicit memory • Caudate nucleus is part of the striatum and basal ganglia

  20. Implicit Memory Explicit Memory Priming Nonassociative Learning Neocortex Reflex Pathways Facts (Semantic Memory) Events (Episodic Memory) Skills and Habits Simple Classical Conditioning Striatum Medial Temporal Lobe Emotional Response Skeletal Musculature Amygdala Cerebellum Squire and Knowlton (1994) [Squire (1987): Declarative vs. procedural memory]

  21. Habits and skills • Characteristics of habits and skills • Habits are learned (acquired via experience dependent plasticity) • Habits are performed repeatedly over time • Habits are performed almost automatically and nonconsciously • Habits tend to involve an ordered, structured, action sequence • Habits are elicited by a particular context or sequence (either internal or external) • Habits can be habits of thought and habits of motor expression

  22. Habits and skills • Background • Anatomy • Basal ganglia (BG) plays an important role in normal voluntary movement • Input to BG received from cerebral cortex and output sent to brain stem and via the thalamus back to the prefrontal, premotor, and motor cortices

  23. BG in relation to brain structures • Basal ganglia receives i/p from cerebral cortex • o/p from BG goes from thalamus back to cerebral cortex • o/p also goes to spinal cord

  24. Habits and skills • Background • Basal ganglia • Consists of 4 major nuclei • Caudate nucleus • Putamen • Globus pallidus • Subthalamic nucleus • Striatum consists of caudate nucleus, putamen, and ventral striatum

  25. BG

  26. BG • Bottom figure shows coronal view of BG in relation to surrounding structures • Top figure shows medial view of BG: note left side is anterior; right side is posterior

  27. Habits and skills • Background (circuits in BG) • There are several circuits connected to prefrontal regions of the cortex; these include • Dorsolateral prefrontal circuit • Involved in executive function • Lateral orbitofrontal circuit • Plays a major role in mediating empathic, socially appropriate responses • Anterior cingulate circuit • Appears to play an important role in motivated behavior

  28. Habits and skills • Background (diseases associated with BG deficits) • Movement disorders associated with basal ganglia • Parkinson’s disease (described by Parkinson 1817) • Hypokinetic disorder • Impaired initiation of movement (akinesia) • Reduced amplitude and velocity of movement (bradykinesia) • Involuntary tremulous movement • Lessened muscular power • Increased muscle tone (rigidity) • Shuffling gait

  29. Habits and skills • Parkinson’s disease • Results from an insufficiency of a neurotransmitter (dopamine) in the substantia nigra • It has been shown that px with Parkinson’s disease (PD) have a deficiency in dopamine in the striatum, most particularly in the putamen • in 1960s it was shown that injection of L-DOPA, the precursor of dopamine led to a reversal of symptoms temporarily (for about 5 years) • Huntington’s disease • Hyperkinetic disorder • Excessive movements • Heritable and results from a gene defect

  30. Habits and skills • Role of BG in learning and memory • BG is involved in S-R association formation or the formation of habits or skills, and this form of memory is dissociable from declarative memory • Animal lesion study (see Eichenbaum, 2002 for further information) • This has been investigated in an 8-arm radial maze with different task requirements (e.g., McDonald & White, 1993)

  31. Habits and skills • Animal lesion study • Win-shift maze • maze is put in a room and the rat is permitted to encode stimuli around the room to provide spatial cues • on every trial a food reward is placed at the end of the maze; rat is released from centre of maze and is allowed to retrieve food • optimal performance occurs if the rat enters each arm only once. This means the rat must have memory for the mazes that were previously entered

  32. Habits and skills • Role of BG in learning and memory • Win-stay maze – • 8-arm radial maze used, but maze surrounded by a curtain, and lamps were used to illuminate 4 randomly selected arms of the maze; • food was baited in the illuminated mazes only; when an arm was entered for first time, the maze was rebaited; after second time the light was turned off and no more food was provided; • task was to associate a particular stimulus (light) with food across all trials and it was expected that declarative memory was not required, but habit memory was required

  33. radial arm mazes • Radial arm maze configurations to illustrate win-shift and win-stay procedures; • + = rewarded arm

  34. Habits and skills • Results • Win-shift • Rats with hippocampal damage made more errors than controls by visiting previously visited maze arms • Rats with striatal damage were unimpaired compared to normal animals (controls) • Win-stay • Normal control rats learned strategy over several sessions • Rats with hippocampal damage learned somewhat faster than controls • Rats with striatal damage were badly impaired and were at about chance levels of performance even after extended practice

  35. Habits and skills • Conclusions • Selective damage to the hippocampus impairs performance on a task requiring declarative memory • Selective damage to the striatum interferes with habit learning

  36. Sequence learning • Human research • Further support for the dissociation between habit memory and declarative memory • Sequence learning

  37. Sequence learning • Human research • Evidence suggests that amnesics are unimpaired in manual sequence learning (Reber & Squire (1998). Journal of Cognitive Neuroscience 10, 248-265 • This perceptual-motor habit was investigated in a serial response time (SRT) task paradigm • SRT task. Participants are shown a visual cue in 1 of 4 locations by pressing a key corresponding to the location of the cue • Cues follow a repeating sequence of locations (n = 12; 124313214234)

  38. Sequence learning • Amnesics and controls and controls were given SRT training. Other unimpaired control groups (Memory) memorized the sequence of responses (see Table for details). All groups had their implicit and explicit memory tested • The Memory control groups memorized the sequence of responses by watching the computer screen and attempting to memorize the sequence of responses

  39. Sequence learning

  40. Sequence learning • Results • Amnesics and controls had decreasing SRT RTs to practiced SRT across trial blocks • Next figure presents implicit memory performance by group • Note amnesics and controls were the only groups to show implicit memory

  41. Sequence learning • Top panel. Open bars present RT for sequence S1 (practiced by amn and con) open bars; shaded bar presents RT for N1 (unpracticed) • Bottom panel—difference between S1 and N1 (measure of implicit memory

  42. Sequence learning • This Figure presents for each group explicit memory performance, assessed by recognition memory performance of 5 sequences (1 target and 5 lures) on a scale from 0 to 100

  43. Sequence learning • Results • Note: amnesics showed little evidence of explicit memory, in comparison to other groups • Memory controls (esp. young) showed explicit memory performance

  44. Sequence Learning • Filled squares – amnesic • Open square –combined performance of young subjects • Open triangle – controls • Open circle – Mem old participants • Note: cross-over interaction

  45. Sequence learning • Conclusions • Proposed that cross-over interaction shown in Figure 5 reflects encapsulation of implicit and explicit memory in different memory systems • Explicit memory mediated by hippocampal/diencephalic brain structures • Implicit memory mediated by motor cortex, neostriatal, supplementary motor area

  46. Sequence learning • Human research (PD) • Wilkinson 2009, Neuropsychologia, 47, 2564-2573 • Investigated implicit & explicit memory in SRT task in PDs and controls • Hypothesized that PDs would be impaired in their implicit memory for SRTs and would also be impaired in their explicit memory for explicitly presented SRTs

  47. Sequence learning • Human research (PD) • Wilkinson 2009, Neuropsychologia, 47, 2564-2573 • Exp. 1 – implicit SRT • Sequence was presented probabilistically to introduce noise and decrease opportunities for explicit learning • E.g., one group of Ps were shown 3-1-4-3-2-4-2-1-3-4-1-2, 85% of the time and 4-3-1-2-4-1-3-2-1-4-2-3, 15 % of the time • 10 blocks of trials each block with 120 trials of SRT task

  48. Sequence learning • Human research (PD) • Implicit sequence learning assessed by comparing difference between probable and improbable sequence Reaction time

  49. Sequence learning • PDs shown in back; controls shown in white • ** designates blocks in which difference between probable and improbable sequence is significant (p < .05) • Note: evidence of implicit learning for controls stronger than for PDs

  50. Sequence learning • Human research (PD) • Explicit sequence learning • After final implicit SRT block presented, explicit sequence learning was tested • Inclusion condition – participants were presented a sequence of 5 cues from probable sequence and were instructed to recall the next correct response (Inclusion) • Exclusion condition – participants were presented sequence of 5 cues from probable sequence and were instructed to respond with the next cue that was inconsistent with the training sequence

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