barwood et al.23
|
9 |
2016 |
The researchers conducted two independent studies and a third to evaluate the data of the subjective perception of effort in the combination of the two studies. In the two independent studies, anodal current and placebo of 2mA for 20 minutes was used, with the first study being associated with a 20 Km counter-clock cycling test, which 6 men completed. The second was performed with 8 men with a fixed intensity cycling test at 55% of maximum power and at thermal conditions of 33°C. |
(anodal in the first study) Heart Rate ↔ Subjective perception of effort ↔ (anodal in the second study) Heart Rate ↔ Subjective perception of effort ↔ (anodal data combined) Subjective perception of effort ↔ |
Montenegro et al.24
|
8 |
2016 |
The study was performed with two groups, one with post-stroke subjects, the other with 9 healthy subjects, both submitted to the same knee extension and knee flexion evaluation procedure with two sets of 10 repetitions at 50% of maximal force, after the application of the bi-cephalic tDCS and the placebo situation on the motor cortex for 20 minutes with 2mA. |
(bi-cephalic post-stroke individuals) Muscle torque ↔ Force steadiness (both) ↑ (bi-cephalic healthy individuals) Muscle torque ↔ Force steadiness (extensors) ↑ Force steadiness (flexors) ↔ |
Mendonça et al.25
|
8 |
2016 |
The study was carried out with 45 individuals with fibromyalgia who were divided into 3 intervention groups (tDCS + aerobic exercise, aerobic exercise and tDCS only). the tDCS was applied for 20 minutes at 2mA. The tDCS plus aerobic exercise group was compared to the other two groups. |
((Bi-cephalic tDCS + aerobic exercise) Pain Questionnaire ↓ |
Lattari et al.18
|
8 |
2016 |
The study involved 10 subjects who underwent tDCS at 2mA for 20 minutes of the alternating anodal, cathodal and placebo techniques, associated with elbow flexion exercises on the bar with measured load for 10 maximal repetitions, the anodal technique being compared to the other two situations. |
(Anodal tDCS) Range of movement ↑ Subjective perception of effort ↓ |
Oki et al.26
|
6 |
2016 |
The study was performed with 13 older adults submitted to anodal tDCS or placebo situation over the motor cortex for 15 minutes at 2mA, and was associated with isometric exercise of elbow flexion until the moment of muscle contraction failure. |
(Anodal) Time to muscle failure ↑ Subjective perception of effort ↓ |
Ojardias et al.27
|
1 |
2016 |
The case study was performed with 1 post-stroke individual, who underwent bi-cephalic tDCS with the anodal current electrode over the injured primary motor cortex and the other over the region opposite the lesion, at 2mA for 20 minutes, in association with exercise to verify cardiorespiratory fitness. |
(bi-cephalic) 6-minute walk test ↑ |
Panouilleres et al.28
|
9 |
2015 |
The study was carried out with 38 healthy older adults and 42 young people, all of whom underwent bi-cephalic tDCS at 2mA for 17 minutes, with the anodal technique applied over the motor cortex region responsible for motor task control, associated with a visual motor test for hands |
(bi-cephalic) Visual motor coordination of hands in young people ↑ (bi-cephalic)Visual motor coordination of hands in older adults ↑ |
Uehara et al.12
|
9 |
2015 |
The study was performed with 20 healthy young subjects undergoing tDCS and placebo over the motor cortex, at 1mA for 15 minutes, associated with muscle contraction exercises. |
(cathodal) Selective muscle activation ↑ |
Murray et al.7
|
9 |
2015 |
The study involved 9 individuals with chronic spinal cord injury who underwent bi-cephalic tDCS and placebo, with two different stimulations (1mA and 2mA) over the motor cortex, both for 20 minutes, associated with muscle excitability and sensory perception. |
(bi-cephalic at 2mA) Muscle excitability ↑ (bi-cephalic with 1mA and 2mA) sensory perception ↑ |
Park et al.29
|
7 |
2015 |
The study was carried out with 24 post-stroke subjects who underwent bi-cephalic tDCS and placebo over the motor cortex for 15 minutes at 2mA, associated with strength exercises of the muscle groups involved in the gait. |
(bi-cephalic) Gait symmetry ↑ (bi-cephalic) Gait speed ↑ |
Angius et al.30
|
6 |
2015 |
The study was performed with 9 healthy subjects, who underwent anodal tDCS, cathodal tDCS and placebo on the motor cortex for 10 minutes at 2mA, associated with aerobic exhaustion exercises. |
(anodal and cathodal) Maximum O2 consumption capacity ↔ (anodal) Pain resistance ↑ |
Hoff et al.31
|
6 |
2015 |
The study was performed with 16 healthy older adults who underwent anodal tDCS and placebo over the motor cortex, at 2mA for 15 minutes, associated with visual feedback motor test for the trained right hand and untrained left hand. |
(anodal) Motor coordination by visual feedback in trained hand ↑ (anodal) Motor coordination by visual feedback in untrained hand ↔ |
Von Rein et al.32
|
6 |
2015 |
The study presented 20 healthy young people who underwent anodal tDCS over the motor cortex. at 2mA for 20 minutes, associated with visual feedback motor test. |
(anodal) Motor coordination by visual feedback with tDCS ↑ |
Wrightson et al.33
|
6 |
2015 |
The study was carried out with 10 healthy young people who underwent anodal and cathodal tDCS on the prefrontal cortex at 2mA for 20 minutes, associated with gait test. |
(cathodal) Balance (time of gait variation) ↓ (anodal) Balance (time of gait variation) ↑ |
Hendy & Kidgel.34
|
9 |
2014 |
The study was conducted with 10 subjects who underwent anodal tDCS and placebo over the right motor cortex for 20 minutes at 2mA associated with upper limb strength training. |
(anodal) Strength in the untrained limb ↑ Evoked Motor Potential ↑ |
Duarte et al.35
|
9 |
2014 |
The study was performed with 24 children with cerebral palsy, who underwent anodal tDCS and a placebo situation over the motor cortex for 20 minutes at 1mA, associated with treadmill training. |
(anodal) Static and dynamic balance ↑ |
Valentino et al.36
|
9 |
2014 |
The study included 10 subjects with Parkinson’s disease who underwent an anodal tDCS and placebo over the motor cortex for 20 minutes at 1mA, associated with walk tests. |
(anodal) Motor control during walking ↑ |
Zimerman et al.5
|
8 |
2014 |
The study involved 10 young people and 13 older adults, all of whom underwent bi-cephalic tDCS and placebo over the motor cortex for 20 minutes at 1mA, associated with visual motor training. |
(bi-cephalic with cathode on the cerebral region responsible for the training) Motor visual coordination ↓ |
Kaski et al.14
|
7 |
2014 |
The study was performed with 16 individuals divided into 2 groups that underwent anodal tDCS and the placebo situation, one over the pre-motor cortex and the other with motor cortex stimulation for 15 minutes at 2mA, associated with walking exercises and balance training. |
(anodal) Gait speed ↑ Gait balance ↑ |
Sriraman et al.37
|
6 |
2014 |
The study was performed with 12 healthy subjects who underwent anodal tDCS and placebo over motor cortex for 15 minutes at 1mA, associated with visual motor training of the knee. |
(anodal) Visual motor coordination of the knee ↑ |
KIM et al.9
|
5 |
2014 |
The study was performed with 30 subjects divided into two groups (healthy or stroke patients), who underwent anodal tDCS over the motor cortex for 20 minutes at 1mA, associated with wrist flexion and extension exercises. |
(anodal) Evoked Motor Potential ↑ |
Middleton et al.38
|
2 |
2014 |
The study was carried out with 5 individuals who suffered cranial trauma or were post-stroke, all of whom were submitted to bicephalic tDCS for 24 sessions over the motor cortex at 1.5mA for 15 minutes, associated with strength training. |
(bi-cephalic) Strength ↑ |
Ochi et al.15
|
9 |
2013 |
The study was performed with 18 subjects hemiparetic due to stroke who underwent bi-cephalic tDCS and placebo over the motor cortex for 10 minutes at 1mA, being performed with anodal and cathodal montage on the injured cortex and that opposite the injury, both applied for 5 days, associated with arm strength training. |
(bi-cephalic) Force control ↑ |
Kaski et al.39
|
9 |
2013 |
The study was carried out with 9 individuals who underwent the anodal tDCS and placebo on the Cz area so that the motor cortex was stimulated bilaterally at 2mA for 15 minutes, associated with gait training. |
(bilateral anodal) Gait speed ↑ Gait motor coordination ↑ Gait balance ↑ |
Zimerman et al.40
|
8 |
2013 |
The study involved 29 older adults and 24 young people that underwent bi-cephalic tDCS and placebo over the motor cortex for 20 minutes at 1mA, associated with visual motor training. |
(bi-cephalic with anode on the cerebral region responsible for the training) Motor coordination and attention ↑ |
Kim & Ko.6
|
7 |
2013 |
The study was carried out with 44 subjects who underwent anodal tDCS and placebo over the motor cortex for 20 minutes at 2mA, associated with voluntary exercises for upper limbs. |
(anodal) Evoked motor potential ↑ |
Williams et al.13
|
6 |
2013 |
The study was performed with 18 healthy volunteers who underwent anodal tDCS and placebo, over the motor cortex for 20 minutes at 1.5mA, associated with two contractions of 20% of the maximal effort of the elbow flexors. |
(anodal) Evoked Motor Potential ↑ Muscle Fatigue ↓ |
Khan et al.41
|
6 |
2013 |
The study was performed with 9 subjects who underwent bi-cephalic tDCS and placebo over the motor cortex for 15 minutes at 2mA, associated with wrist flexion exercises. |
(bi-cephalic) Blood flow in the musculature ↑ Motor coordination ↑ |
Kan et al.42
|
6 |
2013 |
The study was carried out with 15 subjects who underwent anodal tDCS and placebo over the motor cortex for 10 minutes at 2mA, associated with isometric exercises for elbow flexors. |
(anodal) Muscle Fatigue ↔ Isometric strength ↔ |
Montenegro et al.17
|
6 |
2013 |
The study was conducted with 11 subjects, who underwent anodal tDCS and placebo over the prefrontal cortex for 20-minute at 2mA, associated with isocaloric aerobic physical exercise session. |
(anodal) Post exercise O2 consumption ↑ |
Hendy & Kidgell.43
|
6 |
2013 |
The study was performed with 30 subjects who underwent anodal tDCS and placebo over the motor cortex for 20 minutes at 2mA, associated with strength training of the wrist extensors. |
(anodal) Dynamic strength ↔ |
Okano et al.11
|
6 |
2013 |
The study was performed with 10 athletes who underwent anodal tDCS and placebo over the temporal cortex for 20 minutes at 2mA, associated with maximal exercise on a cycle ergometer. |
(anodal) SNA activity ↑ Subjective perception of effort ↓ |
Miyaguchi et al.44
|
2 |
2013 |
The study was performed with 9 healthy subjects that underwent anodal tDCS and placebo over the motor cortex at 2mA for 10 minutes, associated with finger abduction and adduction exercises. |
(anodal) Evoked Motor Potential ↑ |
Montenegro et al.8
|
7 |
2012 |
The study was conducted with 9 healthy subjects submitted to bicephalic tDCS and placebo over the lateral dorsal prefrontal cortex for 20 minutes at 2mA associated with aerobic exercise. |
(bi-cephalic) Aerobic capacity ↔ |
Jayaram et al.10
|
6 |
2012 |
The study was performed with 40 individuals who underwent anodal and cathodal tDCS and placebo over the insular cortex for 15 minutes at 2mA, associated with gait adaptation training. |
(anodal) Gait speed adaptation ↑ (cathodal) Gait speed adaptation ↓ |
Bradnam et al.45
|
6 |
2012 |
The study was performed with 12 post-stroke subjects divided into two groups (one group of patients with mild impairment, the other group with moderate and severe impairment) that underwent bicephalic tDCS and placebo, over the motor cortex for 20 minutes at 1mA , associated with brachial bicep exercises. |
(bi-cephalic with cathodal on the injured region) Coefficient of variation of force in moderate and severe patients ↑ Coefficient of variation of force in mild patients ↓ |
*COSTA.46
|
6 |
2012 |
The study was carried out with 11 healthy subjects, who underwent anodal and cathodal tDCS and placebo over the motor cortex for 13 minutes at 2mA, associated with resistance training with submaximal loads on an exercise bike. |
(anodal) Aerobic resistance ↑ (cathodal) Aerobic resistance ↔ (anodal and cathodal) Heart Rate ↔ (anodal and cathodal) Surface electromyography ↔ |
Bolognini et al.16
|
9 |
2011 |
The study was carried out with 14 post-stroke subjects who underwent bi-cephalic tDCS and placebo, over the motor cortex for 40 minutes at 2mA, associated with upper limb motor coordination training. |
(bi-cephalic with anodal on the injured region) Motor coordination of the upper limbs ↑ |
Hesse et al.47
|
9 |
2011 |
The study included 96 post-stroke patients who underwent bicephalic tDCS over the motor cortex for 20 minutes at 2mA, associated with strength training for upper limbs. |
(bi-cephalic) Upper limb strength ↔ |
Montenegro et al7. |
6 |
2011 |
The study was conducted with two groups, one with 10 healthy subjects and the other with 10 athletes, both of whom were submitted to anodal tDCS and the placebo situation over the temporal cortex for 20 minutes at 2mA, associated with autonomic nervous control during rest. |
(anodal) Athletes’ heart rate variability ↔ Healthy individuals’ heart rate variability ↑ |
Madhavan et al.49
|
6 |
2011 |
The study was performed with 9 post-stroke subjects who underwent bi-cephalic tDCS and placebo over the motor cortex for 15 minutes at 2mA, associated with dorsiflexion and plantar flexion exercises. |
(bi-cephalic with anodal on the injured region) Motor coordination ↑ Coefficient of variation of force ↓ |
Geroin et al.50
|
6 |
2011 |
The study was carried out with 30 post-stroke subjects who underwent bi-cephalic tDCS and placebo, over the motor cortex for 20 minutes at 2mA, associated with gait training. |
(bi-cephalic) Motor control on the gait ↔ |
Cogiamanian et al.51
|
7 |
2007 |
The study was performed with 24 healthy subjects who underwent anodal and cathode tDCS and placebo over the primary motor cortex for 10 minutes at 1.5mA, associated with isometric strength training of the elbow flexors, with the anodal condition compared to the other two situations. |
(anodal) Muscle fatigue ↓ |