Virtual Reach Retraining Tool after Stroke
Research shows that utilizing virtual reality gaming as a therapy tool has the potential to increase a patient's engagement and motivation in therapy allowing them to relearn through repetition, reinforcement and immediate feedback. (1)
The RAPAEL Smart Board puts the affected upper extremity into a gravity eliminated position and focuses on repetitive functional movements in order to increase overall range of motion, coordination and timing through reach retraining activities in a virtual reality world.
The RAPAEL Smart Board essentially turns the patient's upper extremity into an avatar allowing the patient to participate in therapeutic gaming activities while providing biofeedback. The Smart Board provides therapeutic gaming activities that simulates activities of daily living as well as some fun innovative activities. The Smart Board is a data driven program that though artificial intelligence tracts patients’ progress providing a just-right challenge. Clinicians and patients do have the ability to manually change the parameters if desired.
RAPAEL Smart Board is intended for patients with upper extremity dysfunction that are limiting range of motion and function on a daily basis.. Primary diagnosis include: Stroke, Spinal Cord Injury, Traumatic Brain Injury, Parkinson's Disease, Guillain- Barre Syndrome, Multiple Sclerosis, Brain Tumor, Cerebral Palsy, Burns, Frozen Shoulder, Arthritis and other orthopedic or neurological disorders.
RAPAEL Smart Board acts as a digital goniometer and measures the patient's range of motion during all activities allowing the clinician to gather objective results for total available reach as well as for timing and coordination. Having these objective measures allows for the clinician to obtain more quantified data to justify improvements allowing for continued services. Quantified data can also be used in order to motivate the patient to keep working towards their goal.
To find out more information regarding the Smart Board please visit our website or call us.
(1) Hatem SM, Saussez G, della Faille M, et al. Rehabilitation of Motor Function after Stroke: A Multiple Systematic Review Focused on Techniques to Stimulate Upper Extremity Recovery. Frontiers in Human Neuroscience. 2016;10:442. doi:10.3389/fnhum.2016.00442.