Does transcranial direct current stimulation of the primary motor cortex improve implicit motor sequence learning in Parkinson's disease?

Firouzi, Mahyar; Baetens, Kris; Swinnen, Eva; Baeken, Chris; Van Overwalle, Frank; Deroost, Natacha

doi:10.1002/jnr.25311

J of Neuroscience Research

2024

DOI: 10.1002/jnr.25311

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Does transcranial direct current stimulation of the primary motor cortex improve implicit motor sequence learning in Parkinson's disease?

Mahyar Firouzi,

Kris Baetens,

Eva Swinnen

et al.

Abstract: Implicit motor sequence learning (IMSL) is a cognitive function that is known to be associated with impaired motor function in Parkinson's disease (PD). We previously reported positive effects of transcranial direct current stimulation (tDCS) over the primary motor cortex (M1) on IMSL in 11 individuals with PD with mild cognitive impairments (MCI), with the largest effects occurring during reacquisition. In the present study, we included 35 individuals with PD, with (n = 15) and without MCI (n = 20), and 35 ag… Show more

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Cited by 2 publications

References 91 publications

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Transcranial electrical stimulation for procedural learning and rehabilitation

Lapenta,

Rêgo,

Boggio

2024

Neurobiology of Learning and Memory

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Transcranial electrical stimulation for procedural learning and rehabilitation

Lapenta,

Rêgo,

Boggio

2024

Neurobiology of Learning and Memory

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The cerebellum is involved in implicit motor sequence learning

Firouzi,

Baetens,

Duta

et al. 2024

Front. Neurosci.

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BackgroundImplicit motor sequence learning (IMSL) is a cognitive function that allows us to execute multiple movements in a specific sequential order and plays a crucial role in our daily functional activities. Although the role of the basal ganglia network in IMSL is well-established, the exact involvement of the cerebellar network is less clear.AimHere, we aimed to address this issue by investigating the effects of cerebellar transcranial direct-current stimulation (tDCS) on IMSL.MethodsIn this sham-controlled, crossover study in 45 healthy young adults, we used mixed-effects models to analyze sequence-specific (primary outcome) and general learning effects (secondary outcome) in the acquisition (during tDCS), short- (five minutes post-tDCS) and long-term consolidation (one week post-tDCS) phases of IMSL, as measured by the serial reaction time (SRT) task.ResultsAnalyses based on response times (RTs) revealed that anodal tDCS over the cerebellum significantly increased sequence-specific learning during acquisition, compared to sham (anodal: M = 38.24 ms, sham: M = 26.78 ms, p = 0.032); did not affect general learning; and significantly slowed overall RTs (anodal: M = 362.03 ms, sham: M = 356.37 ms, p = 0.049). Accuracy-based analyses revealed that anodal tDCS reduced the probability of correct responses occurring in random trials versus sequential trials by 1.17%, p = 0.009, whereas sham tDCS had no effect, p = 0.999.ConclusionOur finding of enhanced sequence-specific learning, but not general learning, suggests that the cerebellar network not only plays a role in error correction processes, but also serves a sequence-specific function within the integrated motor learning network that connects the basal ganglia and cerebellum.

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Does transcranial direct current stimulation of the primary motor cortex improve implicit motor sequence learning in Parkinson's disease?

Cited by 2 publications

References 91 publications

Transcranial electrical stimulation for procedural learning and rehabilitation

Transcranial electrical stimulation for procedural learning and rehabilitation

The cerebellum is involved in implicit motor sequence learning

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