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Memory systems Off-line processing, consolidation, and interference Instructions and motor learning • • • • Green and Flowers (1991) Wulf (1997) Verdolini-Marston & Belota (2003) Boyd & Winstein (2004) Purpose • “Complex” skill learning (i.e. real learning) – Occurs in context of both explicit and implicit processes – Trying to understand the interactivity of the two systems in learning Two views of interaction • Independent – Explicit memory arises from “witnessing” implicit learning and does not assist it – The different systems emerged from different origins • Integrated – Explicit memory is a necessary part of acquiring implicit memory – Explicit memories are transformed into implicit Method • Provide explicit instruction, learn implicit task – Integrated – explicit should help – Independent – should have either no effect or hinder learning • Serial interception sequence learning – http://reberlab.psych.northwestern.edu/SISL/v0.2.0/SISL.html • Like a continuous version of the classic sequence learning task – Guitar hero! • 12 item repeating sequence Task • “catch” the balls using the appropriate keys Method • 2 groups – – Explicit: • • • • memorize the sequence Watch the balls drop without hitting keys Print out of sequence visible as they watch Self-paced – Implicit – none of the above – All: • 24 random cues for familiarization • 6 X 480 learning trial blocks (384 sequenced, 96 novel) • 540 trial test block – 3 different sequences – I from practice – 5 reps per sequence (60 trials) – Used to show performance diffs due to learning Method • Following practice: – Explicit recognition test • 5 different sequences have two reps each • Rated confidence that sequence was the one practiced – Explicit recall task • Try to produce sequence using keys without balls being seen Results • No group differences in performance or learning Results • Differences in explicit recall… Only statistical difference – explicit group could produce the sequence better than the implicit group Conclusions • Independent, multiple memory systems ideas are better supported – This provides direct evidence against the integrated, single system argument – Implicit learning here is not aided by explicit knowledge – …but it’s not hurt either (unlike earlier studies) – Task specific issues? • Is this learning coordination? Historically… • H.M. • Squire & others (e.g. Cohen and Squire 1980) – Declarative and procedural memory systems are independent • Alzheimer’s: declarative impaired, procedural not • Huntington’s: procedural impaired, declarative not • fMRI scanning: procedural & declarative “work” lights up different neural circuitry New evidence… • Willingham (1997) – Activity within medial temporal lobe and striatum associated • Brown and Robertson (2007a and b) – Learning word list after motor skill impairs motor skill – Learning motor skill after word list impairs word learning Interference paradigm • Consolidation and reconsolidation… – Susceptibility to interference, and time: Lines of evidence… • A shared resource? – Medial temporal lobes active during both declarative and procedural processing. • Coupling causing shift from independence? – Damage to frontal lobe prevents interference – Wakefulness vs. sleep – dorsolateral prefrontal cortex invoked when awake but not when asleep • Seems to be that frontal lobe makes MTL and Striatum interfere Interference possibilities & findings Role of dorsolateral prefrontal cortex… Function of interference… • When learning motor skill first… – Interference prevented by stimulating motor cortex • Neither memory impaired or enhanced when interference prevented – Interference independent of memory processing – Stimulated areas (DLPFC, M1) seem to be producing the interference…why? Function of interference… • Why? – New memories are unstable at time of learning – Retrieved memories are unstable when recalled • Maybe instability of both makes for better reorganization of the paired memories? – DLPFC or M1 may • Exert executive control over memory • Select memories susceptible to interference Brain state & processes • Areas of brain interfere when awake, but not when asleep – When awake, memories are organized interactively – When asleep they are organized independently • Learning… – Independent acquisition but interactive after learning? • Aging – DLPFC function alters with age. Youth – mature – old. Manipulating interference • Altered sequence of learning to avoid interference? – Maybe, but what’s the function of the interference? – Maybe it leads to greater memory integration? Memory stability • New memories become resistant to interference over a few hours. – Circuits effecting this change depend on type of practice… • Single block – M1 • Multiple blocks – DLPFC – “Offline” processes stabilize learning. Offline learning • Can be enhanced by – Sleep (motor learning 20-30%) – Praise – Cues at encoding • Learning & consolidation (offline learning) rely on similar brain areas and chemical processes – Circuitry in bird song similar when actually singing and when dreaming. Retrieval and stability • Retrieved memories can be interfered with – But only when new information is to be paired with retrieved information – Possible link with need to integrate new with old memory
