Cerebral Palsy Clinical Trial
Official title:
Transcranial Direct Current Stimulation as Adjuvant to Gamified Rehabilitation for Upper Limb Function in Pediatric Non-progressive Brain Damage: a Randomized Controlled Trial
The goal of this clinical trial is to acknowledge the effects of transcranial direct current stimulation as an adjuvant with gaming rehabilitation for upper limb function rehabilitation in paediatric population with non-progressive brain damage. The main questions it aims to answer are: - Does tDCS boost upper limb function rehabilitation results adding as an adjuvant in paediatric brain damage? - What domains related with upper limb function are most influenced by tDCS stimulation? - What clinical variables are the best to predict the efficacy of the combined treatment? - If the selected intervention causes changes in cognitive domains, and, if it occurs, see their relationship with the proposed intervention and the motor outcomes. As a general objective, this trial seeks the validation of a protocol of non-invasive brain stimulation with tDCS as a complementary therapy for peadiatric population with brain injuries. Participants will be randomly allocated into two groups: experimental group will receive anodal tDCS plus upper limb rehabilitation gaming system rehabilitation and control group will receive sham tDCS plus rehabilitation gaming system for upper limb rehabilitation. Both groups will conducted a virtual reality program with upper limb exercises while been stimulated either with anodal tDCS or sham tDCS. Researchers will compare experimental and control groups to see if there is a difference in upper limb function and cognitive functions.
Paediatric brain damage is categorized into two main types: cerebral palsy, characterized by permanent impairments in posture and movement due to non-progressive brain injuries during gestation and early years of life, and acquired paediatric brain damage, which encompasses sudden brain injuries occurring after birth, stemming from various causes such as traumatic brain injuries, strokes, infections, and brain tumors. Cerebral palsy is estimated to affect 2 cases per 1,000 births, while acquired childhood brain damage exhibits variable incidences depending on the cause. Both categories manifest a broad spectrum of symptoms, ranging from motor and sensory impairments to cognitive, behavioral, and emotional issues, necessitating a transdisciplinary rehabilitation approach. Neuroplasticity has an essential role in function developing and recovery, because of that several rehabilitation techniques are based on this concept, such as virtual reality. Non-invasive brain stimulation is developed to enhance these neuroplasticity mechanisms and, used as a coadjuvant therapy, seeks to get greater and faster results from rehabilitation treatments. Specifically transcranial direct current stimulation (tDCS) has shown positive results in motor functions like gait, balance and upper limb function, when applied as anodal tDCS over M1 cortex. The aim of this study is to conduct an independent parallel randomized trial to assess the effectiveness of tDCS combined with virtual reality in paediatric brain damage in upper limb function, as well as study if the stimulation conducted in M1 cortex has influenced in another cerebral areas and therefore causes changes in cognitive functioning such as executive functions and attention. ;
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