tDCS on Motor Rehabiliation of Post Stroke Patients

Summary

In this study, it is wondered whether cortical excitability level could predict/direct the use of transcranial direct current stimulation combined with physical therapy on upper limb rehabilitation of post stroke patients. Furthermore, the study aims to correlate the motor recovery with cortical excitability level. For this purpose, after basal evaluation, patients will be classified according motor function evaluated by Fugl Meyer in following categories: (ii) moderate: more than 19 points on Fulg Meyer (ii) severe: less than 19 points on Fulg Meyer.

Conditions

• Stroke
• Transcranial Direct Current Stimulation

Interventions

DEVICE

Anodal tDCS

tDCS involves application of very low-amplitude direct currents (2 mA or less) via surface scalp electrodes. It produces a sub-sensory level of electrical stimulation wich remains imperceptible by most people during application. In a small percentage of patients, it may cause minimal discomfort with a mild tingling sensation, which usually disappears after a few seconds. Depending on the polarity, tDCS can increase or decrease corticomotor excitability. Anodal tDCS is able to facilitate neurons depolarization - increasing cortical excitability - while, on the other hand, cathodal tDCS hyperpolarizes the resting membrane potential, reducing the neuronal firing and the cortical excitability questionnaire will be applied

BEHAVIORAL

Physical therapy

all patients will be submitted to a protocol of exercise with differents levels according with motor learing and neuroplasticity principles. All physical therapists were trained before the study.

DEVICE

Cathodal tDCS

tDCS involves application of very low-amplitude direct currents (2 mA or less) via surface scalp electrodes. It produces a sub-sensory level of electrical stimulation wich remains imperceptible by most people during application. In a small percentage of patients, it may cause minimal discomfort with a mild tingling sensation, which usually disappears after a few seconds. Depending on the polarity, tDCS can increase or decrease corticomotor excitability. Anodal tDCS is able to facilitate neurons depolarization - increasing cortical excitability - while, on the other hand, cathodal tDCS hyperpolarizes the resting membrane potential, reducing the neuronal firing and the cortical excitability questionnaire will be applied

DEVICE

Sham tDCS

tDCS involves application of very low-amplitude direct currents (2 mA or less) via surface scalp electrodes. It produces a sub-sensory level of electrical stimulation wich remains imperceptible by most people during application. In a small percentage of patients, it may cause minimal discomfort with a mild tingling sensation, which usually disappears after a few seconds. Depending on the polarity, tDCS can increase or decrease corticomotor excitability. Anodal tDCS is able to facilitate neurons depolarization - increasing cortical excitability - while, on the other hand, cathodal tDCS hyperpolarizes the resting membrane potential, reducing the neuronal firing and the cortical excitability questionnaire will be applied

Sponsors & Collaborators

• Universidade Federal de Pernambuco

  lead OTHER

Study Design

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

DOUBLE

Model

PARALLEL

Eligibility

Min Age

18 Years

Max Age

70 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2018-03-03

Primary Completion

2018-09-01

Completion

2019-03-01

Countries

• Brazil

Study Locations