Off-line learning of motor skill memory: A double dissociation of goal and movement

Cohen, Daniel; Pascual‐Leone, Álvaro; Press, Daniel Z.; Robertson, Edwin M.

doi:10.1073/pnas.0506072102

Cited by 240 publications

(316 citation statements)

References 28 publications

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“…Nonetheless, the time of retesting may influence the expression of off-line improvements. However contrasting improvements over a 12-hr interval -shown in an earlier study -against those that developed over the 24-hr intervals of the current study showed that goal and movement-based improvements can be equally expressed at 8am and at 8pm (Cohen et al 2005). Thus, time-of-day seems unlikely to have influenced the expression of offline learning.…”

Section: Discussioncontrasting

confidence: 87%

“…Off-line improvements can be modified by a participant's ability to recall segments of the sequence (Robertson et al 2004). Those reporting four or less items consistently show goal-based improvements over a night of sleep and movement-based improvements over wake (Cohen et al 2005). We wished to examine the development of both types of improvement over a 24hr interval.…”

Section: Methods Participantsmentioning

confidence: 99%

“…The expression of off-line improvements may be influenced by the timeof-day of retesting. To quantitatively address this issue we contrasted improvements in this study against those which developed over 12-hr intervals in an earlier study (Cohen et al 2005). Two groups were drawn from the earlier study.…”

Section: Methods Participantsmentioning

confidence: 99%

“…24-hr vs. 12-hr) there should be: (1) similar improvements when retesting took place at the same time of day (e.g., 8pm) and (2) substantially different improvements when retesting took place at different times of day (e.g., 8pm vs. 8am) for the same skill component (goal or movement). To explore this issue we contrasted the improvements over the 24-hr intervals described here against those which developed over 12-hr intervals described in earlier work (Cohen et al 2005). There was no significant difference in the goal-based improvements which develop from 8pm to 8am as compared to 8pm to 8pm (unpaired t-test, t(18) = 0.588, p = 0.564).…”

Section: Sequence-specific Skillmentioning

confidence: 99%

“…During consolidation however, skill components are differentially processed: skill represented in an egocentric coordinate frame is enhanced over wake, whereas skill represented in an allocentric coordinate frame is enhanced over a night of sleep (Cohen et al 2005). A 24-hr interval containing a normal sleep-wake cycle may support the development of improvements within both the egocentric and allocentric co-ordinate frames.…”

Section: Introductionmentioning

confidence: 99%

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Motor sequence consolidation: constrained by critical time windows or competing components

Cohen

Robertson

2006

Exp Brain Res

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Skill improvements may develop between practice sessions during memory consolidation. Skill enhancement within an egocentric coordinate frame develops over wake, whereas skill enhancement in an allocentric coordinate frame develops over a night of sleep. We tested whether both types of improvement could develop over two different 24-hr intervals: 8am to 8am or from 8pm to 8pm. We found that for each 24 hour interval, only one type of skill improvement was seen. Despite passing through wake and a night of sleep participants only showed skill improvements commensurate with either a night of sleep or a day awake. The nature of the off-line skill enhancement was determined by when consolidation occurred within the normal sleep-wake cycle. We conclude that motor sequence consolidation is constrained either by having critical time windows or by a competitive interaction in which improvements within one coordinate frame actively block improvements from developing in the alternative coordinate frame.

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Section: Discussioncontrasting

confidence: 87%

Section: Methods Participantsmentioning

confidence: 99%

Section: Methods Participantsmentioning

confidence: 99%

Section: Sequence-specific Skillmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Motor sequence consolidation: constrained by critical time windows or competing components

Cohen

Robertson

2006

Exp Brain Res

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The effects of ageing and cognitive impairment on on‐line and off‐line motor learning

Jin

Abernethy

2009

Applied Cognitive Psychology

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Skilled performance is a collective function of practice-related experiences (online learning) and post-practice memory consolidation during sleep (offline learning). This study examines the effects of ageing and cognitive impairment on the on-and offline learning of a point-to-point arm movement. In a 3-day experiment, older adults (cognitively normal or impaired) and young adults (YAs) were randomly assigned to practice or no-practice conditions. Changes in the dependent measures of movement time and timing error were analysed within and between conditions across days. The findings suggest that both age and cognitive function affect skill learning. YAs improved performance via both on-and offline learning whereas older adults with normal cognitive capacities appeared to learn the movement skill primarily in an online mode. Cognitive impairments were found to hinder both types of skill learning. Implications for motor skill acquisition and rehabilitation are briefly discussed.

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Isolating Visual and Proprioceptive Components of Motor Sequence Learning in ASD

et al. 2015

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Lay Abstract Individuals with autism spectrum disorder (ASD) show deficits in acquiring a wide range of skills including social communication skills, a defining feature of ASD, as well as basic motor skills. Development of even the most basic skill involves integrating information from multiple senses. Learning skilled social gestures is particularly reliant on integration of visual and tactile information. To better understand this process, we used a serial response time task to explore how adults with ASD use visual and proprioceptive input to promote motor learning as compared to healthy controls. In line with prior studies of motor adaptation, we find that individuals with ASD show an anomalous pattern of learning. While both groups learned the implicit motor sequence during training there was decreased reliance on visual input during generalization, as compared to healthy controls. The findings have important implications for understanding the brain basis of impaired skill learning and for understanding approaches for improving these skills in individuals with ASD. Effective learning strategies may leverage guided performance and proprioceptive input or facilitate development of visual-motor connections. Scientific Abstract In addition to defining impairments in social communication skills, individuals with autism spectrum disorder (ASD) also show impairments in more basic sensory and motor skills. Development of new skills involves integrating information from multiple sensory modalities. This input is then used to form internal models of action that can be accessed when both performing skilled movements, as well as understanding those actions performed by others. Learning skilled gestures is particularly reliant on integration of visual and proprioceptive input. We used a modified serial reaction time task (SRTT) to decompose proprioceptive and visual components and examine whether patterns of implicit motor skill learning differ in ASD participants as compared to healthy controls. While both groups learned the implicit motor sequence during training, healthy controls showed robust generalization whereas ASD participants demonstrated little generalization when visual input was constant. In contrast, no group differences in generalization were observed when proprioceptive input was constant, with both groups showing limited degrees of generalization. The findings suggest, when learning a motor sequence, individuals with ASD tend to rely less on visual feedback than do healthy controls. Visuomotor representations are considered to underlie imitative learning and action understanding and are thereby crucial to social skill and cognitive development. Thus, anomalous patterns of implicit motor learning, with a tendency to discount visual feedback, may be an important contributor in core social communication deficits that characterize ASD.

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Off-line learning of motor skill memory: A double dissociation of goal and movement

Cited by 240 publications

References 28 publications

Motor sequence consolidation: constrained by critical time windows or competing components

Motor sequence consolidation: constrained by critical time windows or competing components

The effects of ageing and cognitive impairment on on‐line and off‐line motor learning

Isolating Visual and Proprioceptive Components of Motor Sequence Learning in ASD

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