The Effect of Robot Assisted Hand Therapy in Patients With Spinal Cord Injury

Spinal cord injury (SCI) is considered one of the most devastating injuries that cause lifelong disability.Among the impaired functions, upper extremity function is one of the most important goals of rehabilitation for these individuals.Hand functions are among the most important determinants of independence.Some studies have reported that in more than half of people with tetraplegia, restoring arm and hand function will improve quality of life.Therefore, small improvements in upper extremity function can make a clinically significant difference in feeding, bathing, transferring and other functional activities.Given that the majority of individuals with spinal cord injuries are in their most productive years and life expectancy approaches that of the healthy population, more aggressive treatment strategies that focus on improving peripheral muscle control and recovery of the central nervous system (CNS) are needed.Recently, treatment based on the 'motor learning theory' has been reported to be effective in the recovery of impaired upper extremity function.It has been shown that by repetitive movements as intense as possible to help achieve the ultimate goal of optimum movement, patients are able to learn motor skills that lead to CNS recovery.It has also been suggested that repetitive and activity-based exercise may facilitate recovery after spinal cord injury by inducing practice-dependent brain and spinal cord plasticity.Therefore, repetitive, intensive, and activity-based upper extremity rehabilitative therapy can help improve impaired upper extremity function.In this context, robotic therapy (RT) may be an alternative way of delivering rehabilitative therapy to patients with tetraplegia, as RT can deliver consistently high-intensity, high-repetition, and task-specific training with less effort compared to conventional therapy.