Clinical Research Directory

For tDCS application, the Microestim tDCS model stimulator (NKL Electronic Products Ltd., Brazil) will be used, with a pair of 5 cm x 7 cm (35 cm2) sponge electrodes, which will be soaked in saline solution providing a current density of 0.04 mA/cm2 that will be within safety limits (Russo et al 2017). Regarding electrode placement, the anodic electrode will be fixed over the primary motor cortex (M1) of the affected hemisphere, corresponding to point C3 or C4, according to the international 10-20 electroencephalography system. The cathodic electrode will be positioned over the primary motor cortex of the unaffected hemisphere, at point C4 or C3, respectively, according to the same system. This choice was based on a study by Sun Ho et al (2021) that studied the effects of tDCS and ICT to improve upper limb function after stroke. Volunteers in the a-ETCC group will undergo anodal stimulation at M1 with constant direct current at an intensity of 2 mA, for 20 minutes per session.

At the time of applying CIMT, a sling will be used positioned on the healthy upper limb (UL), then the affected or paretic UL will be stimulated to perform tasks involving activities of daily living and/or everyday life, with the volunteers seated, in an ergonomic way and with the material used for the activities positioned on a table. The healthy UL will be restrained by the sling, while the paretic UL will perform the activities. The CIMT protocol will involve three main components: repetitive task-oriented training of the affected upper limb; the transfer package, developed to facilitate the generalization of therapeutic gains obtained in the clinical setting to the participant's daily activities; and the restriction of the unaffected upper limb, with the aim of inducing functional use of the affected limb, as described in the classic study by Taub et al. (2006). It is worth noting that the restraint of the unaffected limb will occur exclusively during the intervention period