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Comparing Different Montages of tDCS Combined With Dual-task Training on EEG Microstates

Not Applicable
Recruiting
Conditions
Stroke
Interventions
Device: Transcranial direct current stimulation
Registration Number
NCT05547126
Lead Sponsor
Federal University of Paraíba
Brief Summary

This study investigates whether electroencephalographic (EEG) measures of functional connectivity of the target network are associated with the response to different sets of transcranial direct current stimulation combined with dual-task training in post-stroke patients.

Detailed Description

The present study seeks to compare the effects of conventional anodic tDCS (M1) with double-site/dual-site anodic tDCS (M1 + DLPFC) and simulated tDCS on functional connectivity, as assessed by EEG, in patients after staged stroke. chronic. The study is a randomized, double-blind, placebo-controlled, crossover clinical trial. Participants will be submitted to three sessions, each session consisting of a different condition, namely: anodic tDCS - participants who will receive real current over the primary motor area; Dualsite tDCS - participants who will receive real current over the primary motor area and over the dorsolateral prefrontal area (DLPFC) and simulated tDCS - participants who will receive simulated stimulation. Participants will receive 3 tDCS sessions, lasting 20 minutes, associated with a physical therapy protocol based on dual motor and cognitive tasks, on alternate days (3 times a week). On each intervention day, pre and post-intervention assessments will be carried out, the evaluated outcomes will be: functional connectivity (EEG), functional mobility (Timed Up and Go) and executive functions (Trail-making Test A and B, the Clock Drawing Test and Phonemic Verbal Fluency Test). Statistical performance will be performed using SPSS software (Version 20.0) and MATLAB 9.20 with a significance level of p\<0.05.

Recruitment & Eligibility

Status
RECRUITING
Sex
All
Target Recruitment
10
Inclusion Criteria
  • Post-stroke participants for more than 6 months
  • Individuals over 18 years of age;
  • Both sexes;
  • Patients with mild to moderate degree of injury severity (NIHHS <17 points)
Exclusion Criteria
  • Patients with other associated pathologies that can influence motor activity (example: traumatic brain injury, brain tumor);
  • Habitual use of drugs or alcohol;
  • Use of drugs that modulate the activity of the Central Nervous System;
  • Gestation;
  • Use of metallic / electronic implants and / or cardiac pacemakers;
  • Participants unable to communicate verbally;

Study & Design

Study Type
INTERVENTIONAL
Study Design
CROSSOVER
Arm && Interventions
GroupInterventionDescription
Anodal tDCS + dual-task trainingTranscranial direct current stimulationThe anodic electrode (5x5 cm) will be applied to the primary motor area (C3/C4) ipsilateral to the lesion and the reference electrode (6x9 cm) to the deltoid muscle region. Simultaneously with the tDCS sessions, participants will be submitted a protocol based on motor and cognitive dual-task training. The dual-task training will have a total duration of 20 minutes in each session.
tDCS dualsite + dual-task trainingTranscranial direct current stimulationTwo active electrodes (5x5 cm) will be used, which will be positioned over the primary motor area (C3/C4) and over the dorsolateral prefrontal cortex (F3 or F4) in the ipsilateral hemisphere. For this stimulation modality, two active electrodes (anodic) and a reference electrode (6x9 cm) will be used on the deltoid muscle region. Simultaneously with the tDCS sessions, participants will be submitted a protocol based on motor and cognitive dual-task training. The dual-task training will have a total duration of 20 minutes in each session.
tDCS sham + dual-task trainingTranscranial direct current stimulationTwo electrodes will be used, which will be positioned over the primary motor area (C3/C4) and a reference electrode (6x9 cm) will be used on the deltoid muscle region, however the device will be configured in sham mode. Simultaneously with the tDCS sessions, participants will be submitted a protocol based on motor and cognitive dual-task training. The dual-task training will have a total duration of 20 minutes in each session.
Primary Outcome Measures
NameTimeMethod
Microstates EEGThe evaluations will be carried out in pre-intervention

EEG data were processed according to the following steps and parameters: (1) downsampled to 256 Hz; (2) high-pass filter at 2 Hz and low-pass at 20 Hz; (3) visual inspection and artifact removal; (4) correction of eye movement using the independent component analysis; and (5) segmentation into two-second epochs with 10% overlap. The choice for the 2-20 Hz range frequency band. Data were submitted to processing: determination of global field power; clustering using k-means of topographic maps of global field power peaks; determination of the optimal number of topographic maps using a predetermined criterion of the four classic maps (A, B, C, and D); application of the topographic maps to the EEG signal using spatial correlation; and classification of EEG continuous data according to the topographic map with the most correlated sections. We calculated and extracted the global explained variance, coverage, occurrence, and duration from each topography.

Functional connectivityImmediately after the intervention

EEG data were processed according to the following steps and parameters: (1) downsampled to 256 Hz; (2) high-pass filter at 2 Hz and low-pass at 20 Hz; (3) visual inspection and artifact removal; (4) correction of eye movement using the independent component analysis; and (5) segmentation into two-second epochs with 10% overlap. The choice for the 2-20 Hz range frequency band. Data were submitted to processing: determination of global field power; clustering using k-means of topographic maps of global field power peaks; determination of the optimal number of topographic maps using a predetermined criterion of the four classic maps (A, B, C, and D); application of the topographic maps to the EEG signal using spatial correlation; and classification of EEG continuous data according to the topographic map with the most correlated sections. We calculated and extracted the global explained variance, coverage, occurrence, and duration from each topography.

Secondary Outcome Measures
NameTimeMethod
Executive Functions IIIImmediately after the intervention

Phonemic Verbal Fluency Test

Executive Functions IIImmediately after the intervention

the Clock Drawing Test

Timed up and Go testImmediately after the intervention

Timed up and Go test

Executive Functions IImmediately after the intervention

Trial-making Test A and B

Trial Locations

Locations (1)

Federal University of Paraíba,Department of Psychology

🇧🇷

João Pessoa, Paraiba, Brazil

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