This study aims to investigate if the size effect of repetitive magnetic transcranial stimulation in the paretic upper limb in patients after stroke is influenced by the therapeutic decision.
After the patients and volunteers signed an informed consent form they will be classified and randomized using a website (randomization.com) by a non-involved researcher. All patients and volunteers will be assigned to groups (arms) after being tried: (i) rTMS-DIR: in which the patients will be submitted to a customized treatment with repetitive transcranial magnetic stimulation (rTMS) based in neurophysiological assessments; (ii) rTMS: patients will be submitted to standard treatment in the lesioned or non-lesioned hemisphere based in neurophysiological assessments; (iii) rTMS sham: each patient will receive a sham intervention that emits the same sound as the real stimulation; In each group, the patients will be submitted to 10 sessions for two weeks, five days a week in which will receive the rTMS followed by 45 minutes of neurofunctional physiotherapy. All outcomes will be assessed before and after the 10 sessions.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
60
In all rTMS protocols the patient will remain seated in a comfortable chair with adjustable arms and head rests. Before the start of the conventional rTMS (rTMSc), the resting motor threshold (RMT) of the first dorsal interosseous muscle contralateral to the lesioned hemisphere will be determined. The RMT will be defined as the lowest RMT intensity necessary to produce a motor evoked potential amplitude greater than or equal to 50 µV in at least 5 out of 10 attempts.
All patients will be submitted to a protocol of exercise with different levels according to motor learning, neuroplasticity principles and motor impairment. All physiotherapists will be trained prior to the study.
During the rTMS sham sessions the same procedures will be used as the rTMSc protocols, however, the magnetic stimulator and its coil will be turned off.
Federal University of Pernambucano
Recife, Pernambuco, Brazil
RECRUITINGBrain symmetry (baseline)
Accessed with: Quantitative electroencephalogram (qEEG) through the power spectral density (PSD) for each channel considering each band frequency: delta (0,5 a ≤ 4 Hz); theta (\> 4 a ≤ 8 Hz); alpha (\> 8 a ≤13 Hz); beta (\> 13 a ≤ 30 Hz); gama (\< 30 a ≤ 45 Hz) and the relative power for each band. . The Brain Symmetry Index (BSI) will be used to assess the absolute value of the difference in mean hemispheric power in the frequency range of 1 to 45Hz. All of these measures derive from each qEEG band frequency.
Time frame: Before each session (10 sessions for 5 days a week for two weeks)
Brain symmetry (post-treatment)
Accessed with: Quantitative electroencephalogram (qEEG) through the power spectral density (PSD) for each channel considering each band frequency: delta (0,5 a ≤ 4 Hz); theta (\> 4 a ≤ 8 Hz); alpha (\> 8 a ≤13 Hz); beta (\> 13 a ≤ 30 Hz); gama (\< 30 a ≤ 45 Hz) and the relative power for each band. . The Brain Symmetry Index (BSI) will be used to assess the absolute value of the difference in mean hemispheric power in the frequency range of 1 to 45Hz. All of these measures derive from each qEEG band frequency.
Time frame: After each session (10 sessions for 5 days a week for two weeks)
Brain symmetry (baseline)
Accessed with: Low-Resolution Brain Electromagnetic Tomography (LORETA) software. All data from qEEG will also be computed to the LORETA software to generate a tridimensional image of the patient's brain.
Time frame: Before each session (10 sessions for 5 days a week for two weeks)
Brain symmetry (post-treatment)
Accessed with: Low-Resolution Brain Electromagnetic Tomography (LORETA) software. All data from qEEG will also be computed to the LORETA software to generate a tridimensional image of the patient's brain.
Time frame: After each session (10 sessions for 5 days a week for two weeks)
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Change in Fugl Meyer assesment of paretic upper limb motor function
Fugl Meyer assesment is used to measure motor control recovery. It is a 226 point scoring system that includes the following sessions: range of motion, pain, sensation,motor function of upper and lower limbs, balance, coordination and velocity. We will apply only two sessions: upper limb motor function and coordination/velocity, these sessions totalize 66 points. Higher scores indicates better outcomes
Time frame: 10 sessions (5 days a week for two weeks)
Modified Ashworth Scale
The modified Ashworth scale is a 6-point rating scale that is used to measure muscle tone and it will be used to determine the spasticity wrist flexor muscles in the affected hand by stroke. It evaluates the antagonist muscles that limits the force of agonist muscled during a intended motion.
Time frame: 10 sessions (5 days a week for two weeks)
The National Institutes of Health Stroke
This scale will determine the severity and disability level of the post-stroke patient; which consists of 15 items that assess the domains: level of consciousness, eye movements, visual field, facial movements, motor function and ataxia of upper and lower limbs, as well as sensitivity, language, presence of dysarthria and spatial neglect. Each domain punctuates a specific skill from 0 (zero) to 4 points that may vary until a maximum of 42 points.
Time frame: 10 sessions (5 days a week for two weeks)