2017
DOI: 10.1152/jn.00451.2017
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The cerebellum does more than sensory prediction error-based learning in sensorimotor adaptation tasks

Abstract: Individuals with damage to the cerebellum perform poorly in sensorimotor adaptation paradigms. This deficit has been attributed to impairment in sensory prediction error-based updating of an internal forward model, a form of implicit learning. These individuals can, however, successfully counter a perturbation when instructed with an explicit aiming strategy. This successful use of an instructed aiming strategy presents a paradox: In adaptation tasks, why do individuals with cerebellar damage not come up with … Show more

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Cited by 109 publications
(121 citation statements)
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“…Saccadic adaptation by contrast is a largely implicit task . The neural correlates of such task‐related differences are complex, but the cerebellum may be preferentially recruited with implicit paradigms that could therefore be important in driving the differences observed in DYT11 . Another alternative is that the saccadic adaptation deficits identify a cerebellar‐independent mechanism that is revealed selectively by testing saccadic adaptation .…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Saccadic adaptation by contrast is a largely implicit task . The neural correlates of such task‐related differences are complex, but the cerebellum may be preferentially recruited with implicit paradigms that could therefore be important in driving the differences observed in DYT11 . Another alternative is that the saccadic adaptation deficits identify a cerebellar‐independent mechanism that is revealed selectively by testing saccadic adaptation .…”
Section: Discussionmentioning
confidence: 99%
“…10 The neural correlates of such task-related differences are complex, but the cerebellum may be preferentially recruited with implicit paradigms that could therefore be important in driving the differences observed in DYT11. 23,24 Another alternative is that the saccadic adaptation deficits identify a cerebellar-independent mechanism that is revealed selectively by testing saccadic adaptation. 10 Saccadic and limb adaptation are likely to involve overlapping distributed networks, but certain features such as brain stem processing are clearly more important in the control of eye movements.…”
Section: And Selective Deficitsmentioning
confidence: 99%
“…This was made possible by asking participants to report their intended aiming location (i.e. the direction that they intend to move in order to compensate for the perturbation), by verbally specifying a location relative to the target (Taylor et al, 2014, Bond andMcDougle et al 2015;Brudner et al 2016;McDougle et al 2017;Butcher et al 2017), or by tapping the surface of a touch screen Hutter and Taylor, 2018). In these experiments, participants reported their intended aiming location and then make a reaching movement.…”
Section: Introductionmentioning
confidence: 99%
“…Implicit components of adaptation are clearly independent of explicit components, differing both in the time course of their development during training (McDougle et al, 2015;Taylor et al, 2014) and in their development during the aging process (Heuer & Hegele, 2008). They are however related, as patients with cerebellar ataxia show deficits in both implicit and explicit aspects of reach adaptation (Butcher et al, 2017). We find that reach-aftereffects made without strategy were consistent regardless of instruction or the size of the perturbation.…”
Section: Explicit Learning and Awareness Of The Perturbationmentioning
confidence: 58%