Stroke Clinical Trial
Official title:
Dual-hemisphere Transcranial Direct Current Stimulation on Lower Limb Motor Functions After Stroke
The aim of the present study is to evaluate the possible effect of using dual-tDCS combined with conventional physical therapy on lower limb function in stroke patients.
Stroke is a leading cause of adult motor disability. The recovery of motor function after
stroke is often incomplete, despite classical rehabilitation techniques. In the beginning of
the 21th century, transcranial direct current stimulation (tDCS) was introduced as a
non-invasive tool to reversibly modulate brain excitability in humans in which a device sends
constant low direct current (DC) delivered to the area of interest through the electrodes.
These findings have opened the way to the therapeutic use of the brain stimulation for
stroke. Based on the polarity-specific effects, anodal tDCS increases cortical excitability
and cathodal tDCS decreases cortical excitability. To change the cortical excitability, tDCS
differs from other brain stimulation techniques such as transcranial magnetic stimulation
(TMS) in that it does not cause action potentials in cortical neurons, but rather induces
shifts in neuronal resting membrane potential . This is considered to induce a lesser or no
risk of a seizure. Given its advantages such as non-invasiveness, painlessness, safety, and
possible after-effects, tDCS rapidly become a therapeutic adjuvant in neurorehabilitation
especially in stroke patients with motor deficits . A number of studies in healthy subjects
and stroke patients have reported that tDCS-induced excitability changes are related to
increase in the performance of motor tasks and motor skills learning, mainly upper limb
functions Recenty, dual-hemisphere tDCS in which, excites one hemisphere using anodal
stimulation and inhibits the other by cathodal stimulation has been described in healthy
subjects to greater enhance hand motor learning compared to uni-hemisphere tDCS. The
corresponding tDCS-induced changes were reported in imaging study to involve interhemispheric
interactions . An increase in the excitability of unaffected hemisphere and an abnormally
high interhemispheric inhibition (IHI) drive from intact to lesioned hemisphere have been
widely reported after unilateral stroke. Dual-tDCS has been more recent used in
rehabilitation aiming to reduce the inhibition exerted by the unaffected hemisphere on the
affected hemisphere and restore the normal balance of the IHI. Dual-tDCS combined with
training or simultaneous occupational/physical therapy has been reported to improve motor
skill learning and functions of the paretic upper limb in chronic stroke patients .
Lower-limb functions are commonly disordered after stoke, however, less study has focused the
effect of tDCS on lower limb functions. A single session of anodal tDCS over the lower limb
M1 has reported to acutely enhance the effect of motor practice of the paretic ankle, force
production of the paretic knee extensors, and postural stability in chronic stroke patients.
However, little is known about effects of dual-tDCS on lower limb in stroke patients. Only
one recent study showed an improvement of walking speed immediately after a single session of
dual-tDCS alone in sub-acute stroke patients .
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