Priming Expectations and Motor Learning With tDCS

Arizona State University140 enrolled

Overview

The purpose of this study is to test if priming expectations of transcranial Direct Current Stimulation (tDCS) can improve the efficacy of tDCS in enhancing motor learning.

Transcranial direct current stimulation (tDCS) is currently being investigated by the scientific community as an intervention to improve motor learning in the context of neurorehabilitation (e.g., recover lost motor function after stroke) and performance enhancement (e.g., improve sports or technical skill training). More importantly, consumers believe that tDCS works. The expectation surrounding the benefits of tDCS for skill enhancement is so pervasive that the technology is sold for less than $200 and highly rated by the general public on Amazon.com. At the same time, there is considerable skepticism within the motor control field regarding the efficacy and mechanism of action of tDCS on motor learning, driven by highly irreproducible and equivocal findings between and even within laboratories. How effective is tDCS, and could the positive effects of tDCS be attributable in part to a strong placebo effect? Placebo effects (i.e., a positive expectation associated with positive treatment outcomes), are well documented in other interventions like surgeries and pharmaceuticals, but have not been investigated in detail for tDCS, particularly in the motor domain. The lack of knowledge or consideration of the placebo effect may therefore explain why tDCS findings are so inconsistent within motor learning. Thus, the overall aim of this project is to determine whether people's expectations about tDCS change as a function of information about tDCS itself, and whether these changed expectations modulate the effects of tDCS on motor learning. Transcranial direct current stimulation (tDCS) is a noninvasive, safe cortical stimulation technique that has been effectively used for enhancing and inhibiting sensory and motor performance when applied to the responsible cortical areas in healthy adults. For instance, anodal tDCS of primary motor area can improve motor execution. Recent research has investigated whether it is the expectation of receiving tDCS that has a greater impact on behavioral outcomes compared to the actual application of tDCS. This is important as many domains of science are challenged to reproduce previous research demonstrating a positive effect of tDCS on behavior. Thus, to decipher legitimate effects of tDCS on behavior it is important to quantify and compare how changes in behavior are related to tDCS, a key metric related to strength of the placebo effect, and how malleable these placebo effects are. Individuals may participate in this study for up to four sessions (up to 3 training sessions and up to 1 follow-up visit, as assigned) in the span of approximately one week. The investigators expect that individuals will spend up to one hour during the training sessions, and (if applicable) around 15 minutes to complete the follow-up visit, if assigned. The follow-up visit would occur one week after the final training session. This is a double-blind study in which participants will be randomly assigned to specific intervention methods.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

DOUBLE

Enrollment

140

Conditions

Expectations Motor Learning

Interventions

Transcranial Direct Current StimulationDEVICE

Transcranial Direct Current Stimulation (tDCS) is a minimal risk, non-invasive, neuromodulatory technique that involves the emission of a weak electrical current, traditionally via the placement of two electrodes attached to the scalp of a participant. tDCS is widely used for research purposes, the US FDA considers trials of tDCS as non-significant-risk. There are several review articles supporting the safety of tDCS usage in controlled human trials. According to a published meta-analysis , the use of conventional tDCS protocols in human trials (≤40 min, ≤4 mA) has not produced any reports of a Serious Adverse Effect or irreversible injury across over 33,200 sessions.

Eligibility

Sex: ALLMin age: 18 YearsHealthy volunteers:

Medical Language ↔ Plain English

Inclusion Criteria: * Must be 18 or older. Right-hand dominant * Right-hand dominant Exclusion Criteria: * Mixed-handed or ambidextrous * Left-hand dominant * Seizure(s) * Head injury resulting in a loss of consciousness that has required further investigation (including neurosurgery) * Migraines * Current medical diagnosis of a phycological or neurological condition * Any metal in head (outside of mouth) such as shrapnel or surgical clips * Any implanted devices (e.g. cardiac pacemaker, brain stimulator) * Skin condition on scalp (e.g. psoriasis) * Head wound that has not completely healed * Adverse reactions to tDCS or any other brain stimulation technique (e.g. TMS, tRNS) * Pregnant * Currently taking prescription medications or are self-medicating (including recreational drug use), other than the contraceptive pill?

Locations (1)

Arizona State University

Tempe, Arizona, United States

Outcomes

Primary Outcomes

Performance on motor task one week after final training session

This will be calculated as the average of two trials of the motor task that are completed one week after the last training session, after controlling for baseline. The motor task is a timed test that requires participants to spoon two beans (kidney, raw) at a time from a center proximal "start" cup to three distal "target" cups as fast as possible. In short, this task requires multijoint coordination and limb reversal, and performance for each trial is measured in seconds.

Time frame: Change from Baseline to One-Week Follow Up visit (10 days)

Secondary Outcomes

Change in motor performance over the course of training

This outcome measure will be measured as the slope of the line fitted to the motor task performance across all 30 training trials, when trial is transformed to a logarithmic scale. This transformation is done to account for the fact that change in performance is non-linear. The motor task is a timed test that requires participants to spoon two beans (kidney, raw) at a time from a center proximal "start" cup to three distal "target" cups as fast as possible. In short, this task requires multijoint coordination and limb reversal, and performance for each trial is measured in seconds.

Time frame: Three days

Change in tDCS expectations from Day 1 to Day 7

This will be the change (Day 1 minus Day 7) in expectations of tDCS. The tDCS expectation scores are taken from a 1-item survey adapted from the Expectation Assessment Scale, where scores range from 0 (no expectation) to 8 (high expectations); a score of 4 is considered neutral.

Time frame: 7 days

Average dwell time

This is the average amount of time spent in the home cup for each repetition, averaged across the two follow-up trials, controlling for baseline.

Time frame: 10 days

Average peak reach velocity

Data from ClinicalTrials.gov

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