Direct Current Stimulation Promotes BDNF-Dependent Synaptic Plasticity: Potential Implications for Motor Learning

Fritsch, Brita; Reis, Janine; Martinowich, Keri; Schambra, Heidi M.; Ji, Youngmi; Cohen, Leonardo G.; Lu, Bai

doi:10.1016/j.neuron.2010.03.035

Cited by 1,247 publications

(1,175 citation statements)

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“…Increased spontaneous neuronal firing and synaptic efficacy induced by direct‐current stimulation may strengthen neuronal connectivity through long‐term potentiation‐like mechanisms41, 42, 43. These mechanisms may potentiate motor learning, which is also thought to depend on long‐term potentiation‐like plasticity occurring in the motor cortex44.…”

Section: Discussionmentioning

confidence: 99%

“…Modulation of the motor network, including the primary motor cortex, premotor cortex, supplementary motor areas and basal ganglia, has been implemented in motor learning45 46. Modulated synaptic efficacy43 and cortical connectivity47 between these regions may facilitate tDCS‐enhanced motor learning. It is also important to consider that the tDCS montage applied here involved passing current through a large anode to a large cathode.…”

Section: Discussionmentioning

confidence: 99%

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Effects of transcranial direct-current stimulation on laparoscopic surgical skill acquisition

et al. 2018

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BackgroundChanges in medical education may limit opportunities for trainees to gain proficiency in surgical skills. Transcranial direct‐current stimulation (tDCS) can augment motor skill learning and may enhance surgical procedural skill acquisition. The aim of this study was to determine the effects of tDCS on simulation‐based laparoscopic surgical skill acquisition.MethodsIn this double‐blind, sham‐controlled randomized trial, participants were randomized to receive 20 min of anodal tDCS or sham stimulation over the dominant primary motor cortex, concurrent with Fundamentals of Laparoscopic Surgery simulation‐based training. Primary outcomes of laparoscopic pattern‐cutting and peg transfer tasks were scored at baseline, during repeated performance over 1 h, and again at 6 weeks. Intent‐to‐treat analysis examined the effects of treatment group on skill acquisition and retention.ResultsOf 40 participants, those receiving tDCS achieved higher mean(s.d.) final pattern‐cutting scores than participants in the sham group (207·6(30·0) versus 186·0(32·7) respectively; P = 0·022). Scores were unchanged at 6 weeks. Effects on peg transfer scores were not significantly different (210·2(23·5) in the tDCS group versus 201·7(18·1) in the sham group; P = 0·111); the proportion achieving predetermined proficiency levels was higher for tDCS than for sham stimulation. Procedures were well tolerated with no serious adverse events and no decreases in motor measures.ConclusionThe addition of tDCS to laparoscopic surgical training may enhance skill acquisition. Trials of additional skills and translation to non‐simulated performance are required to determine the potential value in medical education and impact on patient outcomes. Registration number: NCT02756052 (https://clinicaltrials.gov/).

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Effects of transcranial direct-current stimulation on laparoscopic surgical skill acquisition

et al. 2018

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“…Thus, variants of the same basic task may assess very different learning processes. This may be particularly important for a technique like tDCS (which may exert its effect through the alteration of thresholds for neuronal discharge (Fritsch et al, 2010)) as observed effects may be highly dependent on the specific context in which it is applied. Currently, the most frequently used tasks to investigate motor skill learning in experimental settings are: (1) sequential finger tapping tasks (SFTT; which can include either implicit or explicit sequence structure) (Ghilardi, Moisello, Silvestri, Ghez, & Krakauer, 2009;Nitsche et al, 2010;Reis et al, 2015;Song & Cohen, 2014); and (2) the sequential visual isometric pinch force task (SVIPT) (Reis et al, 2009).…”

Section: Motor Learningmentioning

confidence: 99%

“…Using the same task, Bastani & Jaberzadeh (2014) investigated the effect of repeated offline application (up to 3) of relatively low intensity (0.2 mA) and duration (10 min) anodal tDCS to the dominant (left) M1 on corticospinal excitability and behavior (Bastani & Jaberzadeh, 2014). Not surprisingly, given our understanding of the need for synchronous application of tDCS with training (Fritsch et al, 2010), no behavioral effects were observed. Of note however, corticospinal excitability was significantly facilitated up to 24 hours depending on the interval between subsequent stimulation applications, which had been reported previously .…”

Section: Online Motor Performance and Skill Learningmentioning

confidence: 99%

“…Several recommendations from that paper have been advanced in the literature. For example, many studies have utilized multi-session rather than single-session tDCS application (Hashemirad et al, 2016), greater emphasis has been placed on monitoring long-term effects of tDCS on motor learning (Hashemirad et al, 2016), evidence of dissociation of tDCS effects applied to distinct brain regions on different stages of motor learning (Galea et al, 2011;Reis et al, 2015;Wymbs, Bastian, & Celnik, 2016) has begun to emerge, and mechanisms underlying tDCS effects are starting to be elucidated (Fritsch et al, 2010; H. I. Kuo et al, 2013; M. F. Kuo et al, 2008;Lang, Nitsche, Sommer, Tergau, & Paulus, 2003;Stagg, Bachtiar, & Johansen-Berg, 2011).…”

Section: Introductionmentioning

confidence: 99%

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Effects of tDCS on motor learning and memory formation: A consensus and critical position paper

Buch

Santarnecchi

Antal

et al. 2017

Clinical Neurophysiology

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Motor skills are required for activities of daily living. Transcranial direct current stimulation (tDCS) applied in association with motor skill learning has been investigated as a tool for enhancing training effects in health and disease. Here, we review the published literature investigating whether tDCS can facilitate the acquisition and retention of motor skills and adaptation. A majority of reports focused on the application of anodal tDCS over the primary motor cortex (M1) during motor skill acquisition, while some evaluated tDCS applied over the cerebellum during adaptation of existing motor skills. Work in multiple laboratories is under way to develop a mechanistic understanding of tDCS effects on different forms of learning, and to optimize stimulation protocols.Efforts are required to improve reproducibility and standardization. Overall, reproducibility remains to be fully tested, effect sizes with present techniques are moderate (up to d= 0.5) (Hashemirad, Zoghi, Fitzgerald, & Jaberzadeh, 2016) and the basis of inter-individual variability in tDCS effects is incompletely understood. It is recommended that future studies explicitly state in the Methods the exploratory (hypothesisgenerating) or hypothesis-driven (confirmatory) nature of the experimental designs. General research practices could be improved with prospective pre-registration of hypothesis-based investigations, more emphasis on detailed description of methods and use of post-publication open data repositories. A checklist is proposed for reporting tDCS investigations in a way that can improve efforts to assess reproducibility.

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Interventions to improve mathematical performance for children with mathematical learning difficulties (MLD)

Furlong

McLoughlin

McGilloway

et al. 2016

Cochrane Database of Systematic Reviews

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Direct Current Stimulation Promotes BDNF-Dependent Synaptic Plasticity: Potential Implications for Motor Learning

Cited by 1,247 publications

References 41 publications

Effects of transcranial direct-current stimulation on laparoscopic surgical skill acquisition

Effects of transcranial direct-current stimulation on laparoscopic surgical skill acquisition

Effects of tDCS on motor learning and memory formation: A consensus and critical position paper

Interventions to improve mathematical performance for children with mathematical learning difficulties (MLD)

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