Catch trials in force field learning influence adaptation and consolidation of human motor memory

Stockinger, C.; Focke, Anne; Stein, Thorsten

doi:10.3389/fnhum.2014.00231

Cited by 20 publications

(27 citation statements)

References 41 publications

(104 reference statements)

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“…Therefore, it might be that a lower amount of motor variability during practice would lead to the same consolidation benefits but would also lead to better absolute performance values of the Random compared to the Blocked or the Constant group. This would indicate that the beneficial potential of variable practice depends on the right amount of variability during practice (Stockinger et al, 2014).…”

Section: Discussionmentioning

confidence: 99%

Contextual Interference Effect Is Independent of Retroactive Inhibition but Variable Practice Is Not Always Beneficial

Thürer

Gedemer

Focke

et al. 2019

Front. Hum. Neurosci.

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Positive effects of variable practice conditions on subsequent motor memory consolidation and generalization are widely accepted and described as the contextual interference effect (CIE). However, the general benefits of CIE are low and these benefits might even depend on decreased retest performances in the blocked-practicing control group, caused by retroactive inhibition. The aim of this study was to investigate if CIE represents a true learning phenomenon or possibly reflects confounding effects of retroactive inhibition. We tested 48 healthy human participants adapting their reaching movements to three different force field magnitudes. Subjects practiced the force fields in either a Blocked (B), Random (R), or Constant (C) schedule. In addition, subjects of the Blocked group performed either a retest schedule that did (Blocked-Matched; BM) or did not (Blocked-Unmatched; BU) control for retroactive inhibition. Results showed that retroactive inhibition did not affect the results of the BU group much and that the Random group showed a better consolidation performance compared to both Blocked groups. However, compared to the Constant group, the Random group showed only slight benefits in its memory consolidation of the mean performance across all force field magnitudes and no benefits in absolute performance values. This indicates that CIE reflects a true motor learning phenomenon, which is independent of retroactive inhibition. However, random practice is not always beneficial over constant practice.

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Section: Discussionmentioning

confidence: 99%

Contextual Interference Effect Is Independent of Retroactive Inhibition but Variable Practice Is Not Always Beneficial

Thürer

Gedemer

Focke

et al. 2019

Front. Hum. Neurosci.

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“…However, this force field prediction cannot entirely counteract the dynamic uncertainty during movement execution under random force field conditions. Therefore, subjects of the random group must have used either some sort of control strategy (impedance control or reflex modulation) or online feedback mechanisms to perform similar to the subjects of the blocked group ( Franklin et al, 2012 ; Stockinger et al, 2014 ). Usage of an impedance strategy would lead to a minor variability in the PDmax and to a decreased reliance on force field prediction in the random group.…”

Section: Discussionmentioning

confidence: 99%

Mechanisms within the Parietal Cortex Correlate with the Benefits of Random Practice in Motor Adaptation

Thürer

Stockinger

Putze

et al. 2017

Front. Hum. Neurosci.

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The motor learning literature shows an increased retest or transfer performance after practicing under unstable (random) conditions. This random practice effect (also known as contextual interference effect) is frequently investigated on the behavioral level and discussed in the context of mechanisms of the dorsolateral prefrontal cortex and increased cognitive efforts during movement planning. However, there is a lack of studies examining the random practice effect in motor adaptation tasks and, in general, the underlying neural processes of the random practice effect are not fully understood. We tested 24 right-handed human subjects performing a reaching task using a robotic manipulandum. Subjects learned to adapt either to a blocked or a random schedule of different force field perturbations while subjects’ electroencephalography (EEG) was recorded. The behavioral results showed a distinct random practice effect in terms of a more stabilized retest performance of the random compared to the blocked practicing group. Further analyses showed that this effect correlates with changes in the alpha band power in electrodes over parietal areas. We conclude that the random practice effect in this study is facilitated by mechanisms within the parietal cortex during movement execution which might reflect online feedback mechanisms.

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“…The force profiles, velocity and kinematic profiles were resampled to 100 data points evenly spread in the y‐direction between movement start and the reach at target extent. For each participant, we subtracted the average baseline force profile from each channel trial to correct for pre‐existing biases in direction‐dependant forces (Stockinger, Focke, & Stein, ; Wei, Wert, & Körding, ). To characterise feedforward adaptation, we analysed the mean perpendicular force exerted against the channel wall divided by mean hand speed in the baseline‐corrected channel trial force profiles.…”

Section: Methodsmentioning

confidence: 99%

Pushing attention to one side: Force field adaptation alters neural correlates of orienting and disengagement of spatial attention

Reuter

Mattingley

Cunnington

et al. 2018

Eur J of Neuroscience

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Sensorimotor adaptation to wedge prisms can alter the balance of attention between left and right space in healthy adults, and improve symptoms of spatial neglect after stroke. Here we asked whether the orienting of spatial attention to visual stimuli is affected by a different form of sensorimotor adaptation that involves physical perturbations of arm movement, rather than distortion of visual feedback. Healthy participants performed a cued discrimination task before and after they made reaching movements to a central target. A velocity‐dependent force field pushed the hand aside during each reach, and required participants to apply compensatory forces toward the opposite side. We used event‐related potentials (ERPs) to determine whether electroencephalography (EEG) responses reflecting orienting (cue‐locked N1) and disengagement (target‐locked P1) of spatial attention are affected by adaptation to force fields. After adaptation, the cue‐locked N1 was relatively larger for stimuli presented in the hemispace corresponding to the direction of compensatory hand force. P1 amplitudes evoked by invalidly cued targets presented on the opposite side were reduced. This suggests that force field adaptation boosted attentional orienting responses toward the side of hand forces, and impeded attentional disengagement from that side, mimicking previously reported effects of prism adaptation. Thus, remapping between motor commands and intended movement direction is sufficient to bias ERPs, reflecting changes in the orienting of spatial attention in the absence of visuo‐spatial distortion or visuo‐proprioceptive mismatch. Findings are relevant to theories of how sensorimotor adaptation can modulate attention, and may open new avenues for treatment of spatial neglect.

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Catch trials in force field learning influence adaptation and consolidation of human motor memory

Cited by 20 publications

References 41 publications

Contextual Interference Effect Is Independent of Retroactive Inhibition but Variable Practice Is Not Always Beneficial

Contextual Interference Effect Is Independent of Retroactive Inhibition but Variable Practice Is Not Always Beneficial

Mechanisms within the Parietal Cortex Correlate with the Benefits of Random Practice in Motor Adaptation

Pushing attention to one side: Force field adaptation alters neural correlates of orienting and disengagement of spatial attention

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