Effects of Transcranial Direct Current Stimulation on Balance of Children With Balance Deficit

Maintaining body position and orientation is a complex and multifactorial task. Balance is defined as the ability to control and maintain the center of gravity or center of mass over the area of the support base. Postural control system aims (1) to maintain balance and postural orientation (2) to perform voluntary movement in static or dynamic circumstances and (3) to react to internal and external disturbances. Neural control of posture will be efficient when there is an interaction of sensory and motor information from multiple structures, and it will vary according to the age of the individuals, maturation of the structures involved, motor repertoire, neuromuscular synergies and musculoskeletal components, among others. The primary motor cortex (M1) has been persistently studied due to its complexity, numerous connections and direct involvement with motor control. Studies suggest that the main neural activity of M1 is to command muscle activity and optimize the effector system´s operation, producing a more uniform, efficient and coordinated motor response, including postural responses to mechanical disturbances.

When one of the organs involved in this function is compromised, regardless of the age of the individuals, whether due to injury or a change in functioning or integration, body oscillations happen. Historically, balance deficit (and consequent falls) are considered normal and acceptable in childhood, however, it is necessary to be careful with falls and their consequences in children with mobility or behavioral diseases. Physical therapy is essential in the rehabilitation of children and adults with balance deficit, with or without injury in nervous system. Currently, there is an increasing number of studies that have pointed Transcranial direct current stimulation (TDCS) as an efficient and safe device to modulate motor performance. To our knowledge, despite this growing number of studies, little is known about how much TDCS could add to an balance exercise protocol for children without structural damage in nervous system with balance deficit. Therefore, it is relevant to carry out studies in order to investigate and possibly elucidate the effects of TDCS on postural control and balance in children. Thus, the aim of this study is to identify the effects of adding anodic TDCS over M1 to exercises on postural control of children with balance deficit. This is a randomized, double-blind, controlled clinical trial.